[{"id":776,"uid":"NPDI-ebe-GA","name":"Chemical characterization of Licorice, Glycyrrhiza uralensis","overallEffect":0,"isControlData":false,"isIc50Shift":false,"croCutoff":null,"croIdentifier":null,"comment":null,"experimentalConditionsComment":null,"resultsComment":"% weight compound/weight extract

glabridin, licochalcone a had quantities of 0 and were excluded from the results","internalComment":null,"objectCompoundId":null,"objectMetaboliteCompoundId":null,"precipitantCompoundId":null,"cytochromeB5Id":null,"studyId":155,"experimentTypeId":10,"testSystemId":null,"ic50ShiftExperimentId":null,"controlDataExperimentId":null,"controlDataForExperimentId":null,"naturalProductSampleId":null,"experimentType.id":10,"experimentType.name":"Characterization of Material","experimentType.isInVitro":false,"experimentType.isTransporter":false,"experimentType.isEnzyme":false,"experimentType.purl":"http://purl.obolibrary.org/obo/DIDEO_00005004","objectCompound.id":null,"objectCompound.name":null,"objectCompound.unii":null,"objectCompound.inChIKey":null,"objectCompound.publicDescription":null,"objectCompound.internalComment":null,"objectCompound.conceptId":null,"objectCompound.enantiomerOfId":null,"objectCompound.concept.conceptId":null,"objectCompound.concept.conceptName":null,"objectCompound.concept.domainId":null,"objectCompound.concept.vocabularyId":null,"objectCompound.concept.conceptClassId":null,"objectCompound.concept.standardConcept":null,"objectCompound.concept.conceptCode":null,"objectCompound.concept.validStartDate":null,"objectCompound.concept.validEndDate":null,"objectCompound.concept.invalid_reason":null,"precipitantCompound.id":null,"precipitantCompound.name":null,"precipitantCompound.unii":null,"precipitantCompound.inChIKey":null,"precipitantCompound.publicDescription":null,"precipitantCompound.internalComment":null,"precipitantCompound.conceptId":null,"precipitantCompound.enantiomerOfId":null,"precipitantCompound.concept.conceptId":null,"precipitantCompound.concept.conceptName":null,"precipitantCompound.concept.domainId":null,"precipitantCompound.concept.vocabularyId":null,"precipitantCompound.concept.conceptClassId":null,"precipitantCompound.concept.standardConcept":null,"precipitantCompound.concept.conceptCode":null,"precipitantCompound.concept.validStartDate":null,"precipitantCompound.concept.validEndDate":null,"precipitantCompound.concept.invalid_reason":null,"objectMetaboliteCompound.id":null,"objectMetaboliteCompound.name":null,"objectMetaboliteCompound.unii":null,"objectMetaboliteCompound.inChIKey":null,"objectMetaboliteCompound.publicDescription":null,"objectMetaboliteCompound.internalComment":null,"objectMetaboliteCompound.conceptId":null,"objectMetaboliteCompound.enantiomerOfId":null,"objectMetaboliteCompound.concept.conceptId":null,"objectMetaboliteCompound.concept.conceptName":null,"objectMetaboliteCompound.concept.domainId":null,"objectMetaboliteCompound.concept.vocabularyId":null,"objectMetaboliteCompound.concept.conceptClassId":null,"objectMetaboliteCompound.concept.standardConcept":null,"objectMetaboliteCompound.concept.conceptCode":null,"objectMetaboliteCompound.concept.validStartDate":null,"objectMetaboliteCompound.concept.validEndDate":null,"objectMetaboliteCompound.concept.invalid_reason":null,"enzymes.id":null,"enzymes.name":null,"enzymes.conceptId":null,"enzymes.experiment_enzyme_xref.enzymeId":null,"enzymes.experiment_enzyme_xref.experimentId":null,"transporters.id":null,"transporters.name":null,"transporters.conceptId":null,"transporters.experiment_transporter_xref.experimentId":null,"transporters.experiment_transporter_xref.transporterId":null,"quantifiedMetabolites.id":231,"quantifiedMetabolites.name":"liquiritin apioside","quantifiedMetabolites.unii":null,"quantifiedMetabolites.inChIKey":"FTVKHUHJWDMWIR-DWMQJYMWSA-N","quantifiedMetabolites.publicDescription":null,"quantifiedMetabolites.internalComment":null,"quantifiedMetabolites.conceptId":null,"quantifiedMetabolites.enantiomerOfId":null,"quantifiedMetabolites.experiment_quantified_metabolite_xref.com":231,"quantifiedMetabolites.experiment_quantified_metabolite_xref.exp":776,"study.id":155,"study.uid":"NPDI-Lm3PvA","study.name":"Cytochrome P450 inhibition by licorice species Glycyrrhiza uralensis and fourteen licorice constituents","study.napdiIdentifier":null,"study.overallSummary":"

The potential of licorice dietary supplements to interact with drug metabolism was evaluated by testing extracts of botanically identified licorice species Glycyrrhiza uralensis and 14 isolated licorice compounds for inhibition of 9 cytochrome P450 enzymes using a UHPLC-MS/MS cocktail assay. G. uralensis strongly inhibited CYP2B6 and moderately inhibited CYP2C8, CYP2C9 and CYP2C19. The licorice compounds isoliquiritigenin, licoricidin, licochalcone A, 18β-glycyrrhetinic acid, and glycycoumarin inhibited one or more members of the CYP2C family of enzymes. Glycycoumarin and licochalcone A inhibited CYP1A2, but only glycycoumarin inhibited CYP2B6. Isoliquiritigenin, glabridin and licoricidin competitively inhibited CYP3A4. The licorice species commonly used in botanical dietary supplements have varying potential for drug-botanical interactions as inhibitors of cytochrome P450 isoforms. Each species of licorice displays a unique profile of constituents with potential for drug interactions.

","study.pubmedId":28774812,"study.embaseId":null,"study.croIdentifier":"UIC","study.croInformation":"UIC","study.dateStart":"2017-03-22T00:00:00.000Z","study.dateEnd":"2017-07-30T00:00:00.000Z","study.internalComment":null,"study.status":"published","study.compoundId":null,"study.naturalProductUid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProductSampleId":null,"study.studySourceTypeId":1,"study.naturalProduct.uid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProduct.binomial":"Glycyrrhiza uralensis","study.naturalProduct.name":"Licorice","study.naturalProduct.itis":null,"study.naturalProduct.srs":"dc6f848b-18bb-4620-81b1-b2af39721bd9","study.naturalProduct.source_id":"","study.naturalProduct.conceptId":null,"study.naturalProduct.concept.conceptId":null,"study.naturalProduct.concept.conceptName":null,"study.naturalProduct.concept.domainId":null,"study.naturalProduct.concept.vocabularyId":null,"study.naturalProduct.concept.conceptClassId":null,"study.naturalProduct.concept.standardConcept":null,"study.naturalProduct.concept.conceptCode":null,"study.naturalProduct.concept.validStartDate":null,"study.naturalProduct.concept.validEndDate":null,"study.naturalProduct.concept.invalid_reason":null,"study.compound.id":null,"study.compound.name":null,"study.compound.unii":null,"study.compound.inChIKey":null,"study.compound.publicDescription":null,"study.compound.internalComment":null,"study.compound.conceptId":null,"study.compound.enantiomerOfId":null,"study.studySourceType.id":1,"study.studySourceType.name":"Published report","testSystem.id":null,"testSystem.name":null,"testSystem.sortOrder":null,"testSystem.conceptId":null,"testSystem.categoryId":null,"testSystem.category.id":null,"testSystem.category.name":null,"testSystem.category.sortOrder":null,"testSystem.category.requiresCytochromeB5":null,"cytochromeB5.id":null,"cytochromeB5.name":null,"cytochromeB5.sortOrder":null,"cytochromeB5.conceptId":null,"controlDataExperiment.id":null,"controlDataExperiment.uid":null,"controlDataExperiment.name":null,"controlDataExperiment.overallEffect":null,"controlDataExperiment.isControlData":null,"controlDataExperiment.isIc50Shift":null,"controlDataExperiment.croCutoff":null,"controlDataExperiment.croIdentifier":null,"controlDataExperiment.comment":null,"controlDataExperiment.experimentalConditionsComment":null,"controlDataExperiment.resultsComment":null,"controlDataExperiment.internalComment":null,"controlDataExperiment.objectCompoundId":null,"controlDataExperiment.objectMetaboliteCompoundId":null,"controlDataExperiment.precipitantCompoundId":null,"controlDataExperiment.cytochromeB5Id":null,"controlDataExperiment.studyId":null,"controlDataExperiment.experimentTypeId":null,"controlDataExperiment.testSystemId":null,"controlDataExperiment.ic50ShiftExperimentId":null,"controlDataExperiment.controlDataExperimentId":null,"controlDataExperiment.controlDataForExperimentId":null,"controlDataExperiment.naturalProductSampleId":null,"controlDataExperiment.experimentType.id":null,"controlDataExperiment.experimentType.name":null,"controlDataExperiment.experimentType.isInVitro":null,"controlDataExperiment.experimentType.isTransporter":null,"controlDataExperiment.experimentType.isEnzyme":null,"controlDataExperiment.experimentType.purl":null,"controlDataExperiment.objectCompound.id":null,"controlDataExperiment.objectCompound.name":null,"controlDataExperiment.objectCompound.unii":null,"controlDataExperiment.objectCompound.inChIKey":null,"controlDataExperiment.objectCompound.publicDescription":null,"controlDataExperiment.objectCompound.internalComment":null,"controlDataExperiment.objectCompound.conceptId":null,"controlDataExperiment.objectCompound.enantiomerOfId":null,"controlDataExperiment.precipitantCompound.id":null,"controlDataExperiment.precipitantCompound.name":null,"controlDataExperiment.precipitantCompound.unii":null,"controlDataExperiment.precipitantCompound.inChIKey":null,"controlDataExperiment.precipitantCompound.publicDescription":null,"controlDataExperiment.precipitantCompound.internalComment":null,"controlDataExperiment.precipitantCompound.conceptId":null,"controlDataExperiment.precipitantCompound.enantiomerOfId":null,"controlDataExperiment.objectMetaboliteCompound.id":null,"controlDataExperiment.objectMetaboliteCompound.name":null,"controlDataExperiment.objectMetaboliteCompound.unii":null,"controlDataExperiment.objectMetaboliteCompound.inChIKey":null,"controlDataExperiment.objectMetaboliteCompound.publicDescriptio":null,"controlDataExperiment.objectMetaboliteCompound.internalComment":null,"controlDataExperiment.objectMetaboliteCompound.conceptId":null,"controlDataExperiment.objectMetaboliteCompound.enantiomerOfId":null,"controlDataExperiment.enzymes.id":null,"controlDataExperiment.enzymes.name":null,"controlDataExperiment.enzymes.conceptId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.enzymeId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.experiment":null,"controlDataExperiment.transporters.id":null,"controlDataExperiment.transporters.name":null,"controlDataExperiment.transporters.conceptId":null,"controlDataExperiment.transporters.experiment_transporter_xref.":null,"controlDataExperiment.quantifiedMetabolites.id":null,"controlDataExperiment.quantifiedMetabolites.name":null,"controlDataExperiment.quantifiedMetabolites.unii":null,"controlDataExperiment.quantifiedMetabolites.inChIKey":null,"controlDataExperiment.quantifiedMetabolites.publicDescription":null,"controlDataExperiment.quantifiedMetabolites.internalComment":null,"controlDataExperiment.quantifiedMetabolites.conceptId":null,"controlDataExperiment.quantifiedMetabolites.enantiomerOfId":null,"controlDataExperiment.quantifiedMetabolites.experiment_quantifi":null,"experimentAnswers.id":14137,"experimentAnswers.text":"ethanol, isopropanol, water (90:5:5, v/v/v)","experimentAnswers.answerId":null,"experimentAnswers.experimentId":776,"experimentAnswers.questionId":1104,"experimentAnswers.question.id":1104,"experimentAnswers.question.text":"Solvent used","experimentAnswers.question.required":false,"experimentAnswers.question.maxAnswers":1,"experimentAnswers.question.type":"STRING","experimentAnswers.question.conceptId":null,"experimentAnswers.question.answers.id":null,"experimentAnswers.question.answers.text":null,"experimentAnswers.question.answers.sortOrder":null,"experimentAnswers.question.answers.conceptId":null,"experimentAnswers.question.answers.questionId":null,"experimentAnswers.answer.id":null,"experimentAnswers.answer.text":null,"experimentAnswers.answer.sortOrder":null,"experimentAnswers.answer.conceptId":null,"experimentAnswers.answer.questionId":null},{"id":776,"uid":"NPDI-ebe-GA","name":"Chemical characterization of Licorice, Glycyrrhiza uralensis","overallEffect":0,"isControlData":false,"isIc50Shift":false,"croCutoff":null,"croIdentifier":null,"comment":null,"experimentalConditionsComment":null,"resultsComment":"% weight compound/weight extract

glabridin, licochalcone a had quantities of 0 and were excluded from the results","internalComment":null,"objectCompoundId":null,"objectMetaboliteCompoundId":null,"precipitantCompoundId":null,"cytochromeB5Id":null,"studyId":155,"experimentTypeId":10,"testSystemId":null,"ic50ShiftExperimentId":null,"controlDataExperimentId":null,"controlDataForExperimentId":null,"naturalProductSampleId":null,"experimentType.id":10,"experimentType.name":"Characterization of Material","experimentType.isInVitro":false,"experimentType.isTransporter":false,"experimentType.isEnzyme":false,"experimentType.purl":"http://purl.obolibrary.org/obo/DIDEO_00005004","objectCompound.id":null,"objectCompound.name":null,"objectCompound.unii":null,"objectCompound.inChIKey":null,"objectCompound.publicDescription":null,"objectCompound.internalComment":null,"objectCompound.conceptId":null,"objectCompound.enantiomerOfId":null,"objectCompound.concept.conceptId":null,"objectCompound.concept.conceptName":null,"objectCompound.concept.domainId":null,"objectCompound.concept.vocabularyId":null,"objectCompound.concept.conceptClassId":null,"objectCompound.concept.standardConcept":null,"objectCompound.concept.conceptCode":null,"objectCompound.concept.validStartDate":null,"objectCompound.concept.validEndDate":null,"objectCompound.concept.invalid_reason":null,"precipitantCompound.id":null,"precipitantCompound.name":null,"precipitantCompound.unii":null,"precipitantCompound.inChIKey":null,"precipitantCompound.publicDescription":null,"precipitantCompound.internalComment":null,"precipitantCompound.conceptId":null,"precipitantCompound.enantiomerOfId":null,"precipitantCompound.concept.conceptId":null,"precipitantCompound.concept.conceptName":null,"precipitantCompound.concept.domainId":null,"precipitantCompound.concept.vocabularyId":null,"precipitantCompound.concept.conceptClassId":null,"precipitantCompound.concept.standardConcept":null,"precipitantCompound.concept.conceptCode":null,"precipitantCompound.concept.validStartDate":null,"precipitantCompound.concept.validEndDate":null,"precipitantCompound.concept.invalid_reason":null,"objectMetaboliteCompound.id":null,"objectMetaboliteCompound.name":null,"objectMetaboliteCompound.unii":null,"objectMetaboliteCompound.inChIKey":null,"objectMetaboliteCompound.publicDescription":null,"objectMetaboliteCompound.internalComment":null,"objectMetaboliteCompound.conceptId":null,"objectMetaboliteCompound.enantiomerOfId":null,"objectMetaboliteCompound.concept.conceptId":null,"objectMetaboliteCompound.concept.conceptName":null,"objectMetaboliteCompound.concept.domainId":null,"objectMetaboliteCompound.concept.vocabularyId":null,"objectMetaboliteCompound.concept.conceptClassId":null,"objectMetaboliteCompound.concept.standardConcept":null,"objectMetaboliteCompound.concept.conceptCode":null,"objectMetaboliteCompound.concept.validStartDate":null,"objectMetaboliteCompound.concept.validEndDate":null,"objectMetaboliteCompound.concept.invalid_reason":null,"enzymes.id":null,"enzymes.name":null,"enzymes.conceptId":null,"enzymes.experiment_enzyme_xref.enzymeId":null,"enzymes.experiment_enzyme_xref.experimentId":null,"transporters.id":null,"transporters.name":null,"transporters.conceptId":null,"transporters.experiment_transporter_xref.experimentId":null,"transporters.experiment_transporter_xref.transporterId":null,"quantifiedMetabolites.id":231,"quantifiedMetabolites.name":"liquiritin apioside","quantifiedMetabolites.unii":null,"quantifiedMetabolites.inChIKey":"FTVKHUHJWDMWIR-DWMQJYMWSA-N","quantifiedMetabolites.publicDescription":null,"quantifiedMetabolites.internalComment":null,"quantifiedMetabolites.conceptId":null,"quantifiedMetabolites.enantiomerOfId":null,"quantifiedMetabolites.experiment_quantified_metabolite_xref.com":231,"quantifiedMetabolites.experiment_quantified_metabolite_xref.exp":776,"study.id":155,"study.uid":"NPDI-Lm3PvA","study.name":"Cytochrome P450 inhibition by licorice species Glycyrrhiza uralensis and fourteen licorice constituents","study.napdiIdentifier":null,"study.overallSummary":"

The potential of licorice dietary supplements to interact with drug metabolism was evaluated by testing extracts of botanically identified licorice species Glycyrrhiza uralensis and 14 isolated licorice compounds for inhibition of 9 cytochrome P450 enzymes using a UHPLC-MS/MS cocktail assay. G. uralensis strongly inhibited CYP2B6 and moderately inhibited CYP2C8, CYP2C9 and CYP2C19. The licorice compounds isoliquiritigenin, licoricidin, licochalcone A, 18β-glycyrrhetinic acid, and glycycoumarin inhibited one or more members of the CYP2C family of enzymes. Glycycoumarin and licochalcone A inhibited CYP1A2, but only glycycoumarin inhibited CYP2B6. Isoliquiritigenin, glabridin and licoricidin competitively inhibited CYP3A4. The licorice species commonly used in botanical dietary supplements have varying potential for drug-botanical interactions as inhibitors of cytochrome P450 isoforms. Each species of licorice displays a unique profile of constituents with potential for drug interactions.

","study.pubmedId":28774812,"study.embaseId":null,"study.croIdentifier":"UIC","study.croInformation":"UIC","study.dateStart":"2017-03-22T00:00:00.000Z","study.dateEnd":"2017-07-30T00:00:00.000Z","study.internalComment":null,"study.status":"published","study.compoundId":null,"study.naturalProductUid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProductSampleId":null,"study.studySourceTypeId":1,"study.naturalProduct.uid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProduct.binomial":"Glycyrrhiza uralensis","study.naturalProduct.name":"Licorice","study.naturalProduct.itis":null,"study.naturalProduct.srs":"dc6f848b-18bb-4620-81b1-b2af39721bd9","study.naturalProduct.source_id":"","study.naturalProduct.conceptId":null,"study.naturalProduct.concept.conceptId":null,"study.naturalProduct.concept.conceptName":null,"study.naturalProduct.concept.domainId":null,"study.naturalProduct.concept.vocabularyId":null,"study.naturalProduct.concept.conceptClassId":null,"study.naturalProduct.concept.standardConcept":null,"study.naturalProduct.concept.conceptCode":null,"study.naturalProduct.concept.validStartDate":null,"study.naturalProduct.concept.validEndDate":null,"study.naturalProduct.concept.invalid_reason":null,"study.compound.id":null,"study.compound.name":null,"study.compound.unii":null,"study.compound.inChIKey":null,"study.compound.publicDescription":null,"study.compound.internalComment":null,"study.compound.conceptId":null,"study.compound.enantiomerOfId":null,"study.studySourceType.id":1,"study.studySourceType.name":"Published report","testSystem.id":null,"testSystem.name":null,"testSystem.sortOrder":null,"testSystem.conceptId":null,"testSystem.categoryId":null,"testSystem.category.id":null,"testSystem.category.name":null,"testSystem.category.sortOrder":null,"testSystem.category.requiresCytochromeB5":null,"cytochromeB5.id":null,"cytochromeB5.name":null,"cytochromeB5.sortOrder":null,"cytochromeB5.conceptId":null,"controlDataExperiment.id":null,"controlDataExperiment.uid":null,"controlDataExperiment.name":null,"controlDataExperiment.overallEffect":null,"controlDataExperiment.isControlData":null,"controlDataExperiment.isIc50Shift":null,"controlDataExperiment.croCutoff":null,"controlDataExperiment.croIdentifier":null,"controlDataExperiment.comment":null,"controlDataExperiment.experimentalConditionsComment":null,"controlDataExperiment.resultsComment":null,"controlDataExperiment.internalComment":null,"controlDataExperiment.objectCompoundId":null,"controlDataExperiment.objectMetaboliteCompoundId":null,"controlDataExperiment.precipitantCompoundId":null,"controlDataExperiment.cytochromeB5Id":null,"controlDataExperiment.studyId":null,"controlDataExperiment.experimentTypeId":null,"controlDataExperiment.testSystemId":null,"controlDataExperiment.ic50ShiftExperimentId":null,"controlDataExperiment.controlDataExperimentId":null,"controlDataExperiment.controlDataForExperimentId":null,"controlDataExperiment.naturalProductSampleId":null,"controlDataExperiment.experimentType.id":null,"controlDataExperiment.experimentType.name":null,"controlDataExperiment.experimentType.isInVitro":null,"controlDataExperiment.experimentType.isTransporter":null,"controlDataExperiment.experimentType.isEnzyme":null,"controlDataExperiment.experimentType.purl":null,"controlDataExperiment.objectCompound.id":null,"controlDataExperiment.objectCompound.name":null,"controlDataExperiment.objectCompound.unii":null,"controlDataExperiment.objectCompound.inChIKey":null,"controlDataExperiment.objectCompound.publicDescription":null,"controlDataExperiment.objectCompound.internalComment":null,"controlDataExperiment.objectCompound.conceptId":null,"controlDataExperiment.objectCompound.enantiomerOfId":null,"controlDataExperiment.precipitantCompound.id":null,"controlDataExperiment.precipitantCompound.name":null,"controlDataExperiment.precipitantCompound.unii":null,"controlDataExperiment.precipitantCompound.inChIKey":null,"controlDataExperiment.precipitantCompound.publicDescription":null,"controlDataExperiment.precipitantCompound.internalComment":null,"controlDataExperiment.precipitantCompound.conceptId":null,"controlDataExperiment.precipitantCompound.enantiomerOfId":null,"controlDataExperiment.objectMetaboliteCompound.id":null,"controlDataExperiment.objectMetaboliteCompound.name":null,"controlDataExperiment.objectMetaboliteCompound.unii":null,"controlDataExperiment.objectMetaboliteCompound.inChIKey":null,"controlDataExperiment.objectMetaboliteCompound.publicDescriptio":null,"controlDataExperiment.objectMetaboliteCompound.internalComment":null,"controlDataExperiment.objectMetaboliteCompound.conceptId":null,"controlDataExperiment.objectMetaboliteCompound.enantiomerOfId":null,"controlDataExperiment.enzymes.id":null,"controlDataExperiment.enzymes.name":null,"controlDataExperiment.enzymes.conceptId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.enzymeId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.experiment":null,"controlDataExperiment.transporters.id":null,"controlDataExperiment.transporters.name":null,"controlDataExperiment.transporters.conceptId":null,"controlDataExperiment.transporters.experiment_transporter_xref.":null,"controlDataExperiment.quantifiedMetabolites.id":null,"controlDataExperiment.quantifiedMetabolites.name":null,"controlDataExperiment.quantifiedMetabolites.unii":null,"controlDataExperiment.quantifiedMetabolites.inChIKey":null,"controlDataExperiment.quantifiedMetabolites.publicDescription":null,"controlDataExperiment.quantifiedMetabolites.internalComment":null,"controlDataExperiment.quantifiedMetabolites.conceptId":null,"controlDataExperiment.quantifiedMetabolites.enantiomerOfId":null,"controlDataExperiment.quantifiedMetabolites.experiment_quantifi":null,"experimentAnswers.id":14138,"experimentAnswers.text":"species checked with DNA barcoding, and comparison with voucher specimens at the Field Museum of Natural History, Chicago.","experimentAnswers.answerId":null,"experimentAnswers.experimentId":776,"experimentAnswers.questionId":1106,"experimentAnswers.question.id":1106,"experimentAnswers.question.text":"Material preparation additional information","experimentAnswers.question.required":false,"experimentAnswers.question.maxAnswers":1,"experimentAnswers.question.type":"TEXT","experimentAnswers.question.conceptId":null,"experimentAnswers.question.answers.id":null,"experimentAnswers.question.answers.text":null,"experimentAnswers.question.answers.sortOrder":null,"experimentAnswers.question.answers.conceptId":null,"experimentAnswers.question.answers.questionId":null,"experimentAnswers.answer.id":null,"experimentAnswers.answer.text":null,"experimentAnswers.answer.sortOrder":null,"experimentAnswers.answer.conceptId":null,"experimentAnswers.answer.questionId":null},{"id":776,"uid":"NPDI-ebe-GA","name":"Chemical characterization of Licorice, Glycyrrhiza uralensis","overallEffect":0,"isControlData":false,"isIc50Shift":false,"croCutoff":null,"croIdentifier":null,"comment":null,"experimentalConditionsComment":null,"resultsComment":"% weight compound/weight extract

glabridin, licochalcone a had quantities of 0 and were excluded from the results","internalComment":null,"objectCompoundId":null,"objectMetaboliteCompoundId":null,"precipitantCompoundId":null,"cytochromeB5Id":null,"studyId":155,"experimentTypeId":10,"testSystemId":null,"ic50ShiftExperimentId":null,"controlDataExperimentId":null,"controlDataForExperimentId":null,"naturalProductSampleId":null,"experimentType.id":10,"experimentType.name":"Characterization of Material","experimentType.isInVitro":false,"experimentType.isTransporter":false,"experimentType.isEnzyme":false,"experimentType.purl":"http://purl.obolibrary.org/obo/DIDEO_00005004","objectCompound.id":null,"objectCompound.name":null,"objectCompound.unii":null,"objectCompound.inChIKey":null,"objectCompound.publicDescription":null,"objectCompound.internalComment":null,"objectCompound.conceptId":null,"objectCompound.enantiomerOfId":null,"objectCompound.concept.conceptId":null,"objectCompound.concept.conceptName":null,"objectCompound.concept.domainId":null,"objectCompound.concept.vocabularyId":null,"objectCompound.concept.conceptClassId":null,"objectCompound.concept.standardConcept":null,"objectCompound.concept.conceptCode":null,"objectCompound.concept.validStartDate":null,"objectCompound.concept.validEndDate":null,"objectCompound.concept.invalid_reason":null,"precipitantCompound.id":null,"precipitantCompound.name":null,"precipitantCompound.unii":null,"precipitantCompound.inChIKey":null,"precipitantCompound.publicDescription":null,"precipitantCompound.internalComment":null,"precipitantCompound.conceptId":null,"precipitantCompound.enantiomerOfId":null,"precipitantCompound.concept.conceptId":null,"precipitantCompound.concept.conceptName":null,"precipitantCompound.concept.domainId":null,"precipitantCompound.concept.vocabularyId":null,"precipitantCompound.concept.conceptClassId":null,"precipitantCompound.concept.standardConcept":null,"precipitantCompound.concept.conceptCode":null,"precipitantCompound.concept.validStartDate":null,"precipitantCompound.concept.validEndDate":null,"precipitantCompound.concept.invalid_reason":null,"objectMetaboliteCompound.id":null,"objectMetaboliteCompound.name":null,"objectMetaboliteCompound.unii":null,"objectMetaboliteCompound.inChIKey":null,"objectMetaboliteCompound.publicDescription":null,"objectMetaboliteCompound.internalComment":null,"objectMetaboliteCompound.conceptId":null,"objectMetaboliteCompound.enantiomerOfId":null,"objectMetaboliteCompound.concept.conceptId":null,"objectMetaboliteCompound.concept.conceptName":null,"objectMetaboliteCompound.concept.domainId":null,"objectMetaboliteCompound.concept.vocabularyId":null,"objectMetaboliteCompound.concept.conceptClassId":null,"objectMetaboliteCompound.concept.standardConcept":null,"objectMetaboliteCompound.concept.conceptCode":null,"objectMetaboliteCompound.concept.validStartDate":null,"objectMetaboliteCompound.concept.validEndDate":null,"objectMetaboliteCompound.concept.invalid_reason":null,"enzymes.id":null,"enzymes.name":null,"enzymes.conceptId":null,"enzymes.experiment_enzyme_xref.enzymeId":null,"enzymes.experiment_enzyme_xref.experimentId":null,"transporters.id":null,"transporters.name":null,"transporters.conceptId":null,"transporters.experiment_transporter_xref.experimentId":null,"transporters.experiment_transporter_xref.transporterId":null,"quantifiedMetabolites.id":231,"quantifiedMetabolites.name":"liquiritin apioside","quantifiedMetabolites.unii":null,"quantifiedMetabolites.inChIKey":"FTVKHUHJWDMWIR-DWMQJYMWSA-N","quantifiedMetabolites.publicDescription":null,"quantifiedMetabolites.internalComment":null,"quantifiedMetabolites.conceptId":null,"quantifiedMetabolites.enantiomerOfId":null,"quantifiedMetabolites.experiment_quantified_metabolite_xref.com":231,"quantifiedMetabolites.experiment_quantified_metabolite_xref.exp":776,"study.id":155,"study.uid":"NPDI-Lm3PvA","study.name":"Cytochrome P450 inhibition by licorice species Glycyrrhiza uralensis and fourteen licorice constituents","study.napdiIdentifier":null,"study.overallSummary":"

The potential of licorice dietary supplements to interact with drug metabolism was evaluated by testing extracts of botanically identified licorice species Glycyrrhiza uralensis and 14 isolated licorice compounds for inhibition of 9 cytochrome P450 enzymes using a UHPLC-MS/MS cocktail assay. G. uralensis strongly inhibited CYP2B6 and moderately inhibited CYP2C8, CYP2C9 and CYP2C19. The licorice compounds isoliquiritigenin, licoricidin, licochalcone A, 18β-glycyrrhetinic acid, and glycycoumarin inhibited one or more members of the CYP2C family of enzymes. Glycycoumarin and licochalcone A inhibited CYP1A2, but only glycycoumarin inhibited CYP2B6. Isoliquiritigenin, glabridin and licoricidin competitively inhibited CYP3A4. The licorice species commonly used in botanical dietary supplements have varying potential for drug-botanical interactions as inhibitors of cytochrome P450 isoforms. Each species of licorice displays a unique profile of constituents with potential for drug interactions.

","study.pubmedId":28774812,"study.embaseId":null,"study.croIdentifier":"UIC","study.croInformation":"UIC","study.dateStart":"2017-03-22T00:00:00.000Z","study.dateEnd":"2017-07-30T00:00:00.000Z","study.internalComment":null,"study.status":"published","study.compoundId":null,"study.naturalProductUid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProductSampleId":null,"study.studySourceTypeId":1,"study.naturalProduct.uid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProduct.binomial":"Glycyrrhiza uralensis","study.naturalProduct.name":"Licorice","study.naturalProduct.itis":null,"study.naturalProduct.srs":"dc6f848b-18bb-4620-81b1-b2af39721bd9","study.naturalProduct.source_id":"","study.naturalProduct.conceptId":null,"study.naturalProduct.concept.conceptId":null,"study.naturalProduct.concept.conceptName":null,"study.naturalProduct.concept.domainId":null,"study.naturalProduct.concept.vocabularyId":null,"study.naturalProduct.concept.conceptClassId":null,"study.naturalProduct.concept.standardConcept":null,"study.naturalProduct.concept.conceptCode":null,"study.naturalProduct.concept.validStartDate":null,"study.naturalProduct.concept.validEndDate":null,"study.naturalProduct.concept.invalid_reason":null,"study.compound.id":null,"study.compound.name":null,"study.compound.unii":null,"study.compound.inChIKey":null,"study.compound.publicDescription":null,"study.compound.internalComment":null,"study.compound.conceptId":null,"study.compound.enantiomerOfId":null,"study.studySourceType.id":1,"study.studySourceType.name":"Published report","testSystem.id":null,"testSystem.name":null,"testSystem.sortOrder":null,"testSystem.conceptId":null,"testSystem.categoryId":null,"testSystem.category.id":null,"testSystem.category.name":null,"testSystem.category.sortOrder":null,"testSystem.category.requiresCytochromeB5":null,"cytochromeB5.id":null,"cytochromeB5.name":null,"cytochromeB5.sortOrder":null,"cytochromeB5.conceptId":null,"controlDataExperiment.id":null,"controlDataExperiment.uid":null,"controlDataExperiment.name":null,"controlDataExperiment.overallEffect":null,"controlDataExperiment.isControlData":null,"controlDataExperiment.isIc50Shift":null,"controlDataExperiment.croCutoff":null,"controlDataExperiment.croIdentifier":null,"controlDataExperiment.comment":null,"controlDataExperiment.experimentalConditionsComment":null,"controlDataExperiment.resultsComment":null,"controlDataExperiment.internalComment":null,"controlDataExperiment.objectCompoundId":null,"controlDataExperiment.objectMetaboliteCompoundId":null,"controlDataExperiment.precipitantCompoundId":null,"controlDataExperiment.cytochromeB5Id":null,"controlDataExperiment.studyId":null,"controlDataExperiment.experimentTypeId":null,"controlDataExperiment.testSystemId":null,"controlDataExperiment.ic50ShiftExperimentId":null,"controlDataExperiment.controlDataExperimentId":null,"controlDataExperiment.controlDataForExperimentId":null,"controlDataExperiment.naturalProductSampleId":null,"controlDataExperiment.experimentType.id":null,"controlDataExperiment.experimentType.name":null,"controlDataExperiment.experimentType.isInVitro":null,"controlDataExperiment.experimentType.isTransporter":null,"controlDataExperiment.experimentType.isEnzyme":null,"controlDataExperiment.experimentType.purl":null,"controlDataExperiment.objectCompound.id":null,"controlDataExperiment.objectCompound.name":null,"controlDataExperiment.objectCompound.unii":null,"controlDataExperiment.objectCompound.inChIKey":null,"controlDataExperiment.objectCompound.publicDescription":null,"controlDataExperiment.objectCompound.internalComment":null,"controlDataExperiment.objectCompound.conceptId":null,"controlDataExperiment.objectCompound.enantiomerOfId":null,"controlDataExperiment.precipitantCompound.id":null,"controlDataExperiment.precipitantCompound.name":null,"controlDataExperiment.precipitantCompound.unii":null,"controlDataExperiment.precipitantCompound.inChIKey":null,"controlDataExperiment.precipitantCompound.publicDescription":null,"controlDataExperiment.precipitantCompound.internalComment":null,"controlDataExperiment.precipitantCompound.conceptId":null,"controlDataExperiment.precipitantCompound.enantiomerOfId":null,"controlDataExperiment.objectMetaboliteCompound.id":null,"controlDataExperiment.objectMetaboliteCompound.name":null,"controlDataExperiment.objectMetaboliteCompound.unii":null,"controlDataExperiment.objectMetaboliteCompound.inChIKey":null,"controlDataExperiment.objectMetaboliteCompound.publicDescriptio":null,"controlDataExperiment.objectMetaboliteCompound.internalComment":null,"controlDataExperiment.objectMetaboliteCompound.conceptId":null,"controlDataExperiment.objectMetaboliteCompound.enantiomerOfId":null,"controlDataExperiment.enzymes.id":null,"controlDataExperiment.enzymes.name":null,"controlDataExperiment.enzymes.conceptId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.enzymeId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.experiment":null,"controlDataExperiment.transporters.id":null,"controlDataExperiment.transporters.name":null,"controlDataExperiment.transporters.conceptId":null,"controlDataExperiment.transporters.experiment_transporter_xref.":null,"controlDataExperiment.quantifiedMetabolites.id":null,"controlDataExperiment.quantifiedMetabolites.name":null,"controlDataExperiment.quantifiedMetabolites.unii":null,"controlDataExperiment.quantifiedMetabolites.inChIKey":null,"controlDataExperiment.quantifiedMetabolites.publicDescription":null,"controlDataExperiment.quantifiedMetabolites.internalComment":null,"controlDataExperiment.quantifiedMetabolites.conceptId":null,"controlDataExperiment.quantifiedMetabolites.enantiomerOfId":null,"controlDataExperiment.quantifiedMetabolites.experiment_quantifi":null,"experimentAnswers.id":14139,"experimentAnswers.text":"UHPLC-MS/MS","experimentAnswers.answerId":null,"experimentAnswers.experimentId":776,"experimentAnswers.questionId":1113,"experimentAnswers.question.id":1113,"experimentAnswers.question.text":"Mass spectrometry instrument used","experimentAnswers.question.required":false,"experimentAnswers.question.maxAnswers":1,"experimentAnswers.question.type":"STRING","experimentAnswers.question.conceptId":null,"experimentAnswers.question.answers.id":null,"experimentAnswers.question.answers.text":null,"experimentAnswers.question.answers.sortOrder":null,"experimentAnswers.question.answers.conceptId":null,"experimentAnswers.question.answers.questionId":null,"experimentAnswers.answer.id":null,"experimentAnswers.answer.text":null,"experimentAnswers.answer.sortOrder":null,"experimentAnswers.answer.conceptId":null,"experimentAnswers.answer.questionId":null},{"id":776,"uid":"NPDI-ebe-GA","name":"Chemical characterization of Licorice, Glycyrrhiza uralensis","overallEffect":0,"isControlData":false,"isIc50Shift":false,"croCutoff":null,"croIdentifier":null,"comment":null,"experimentalConditionsComment":null,"resultsComment":"% weight compound/weight extract

glabridin, licochalcone a had quantities of 0 and were excluded from the results","internalComment":null,"objectCompoundId":null,"objectMetaboliteCompoundId":null,"precipitantCompoundId":null,"cytochromeB5Id":null,"studyId":155,"experimentTypeId":10,"testSystemId":null,"ic50ShiftExperimentId":null,"controlDataExperimentId":null,"controlDataForExperimentId":null,"naturalProductSampleId":null,"experimentType.id":10,"experimentType.name":"Characterization of Material","experimentType.isInVitro":false,"experimentType.isTransporter":false,"experimentType.isEnzyme":false,"experimentType.purl":"http://purl.obolibrary.org/obo/DIDEO_00005004","objectCompound.id":null,"objectCompound.name":null,"objectCompound.unii":null,"objectCompound.inChIKey":null,"objectCompound.publicDescription":null,"objectCompound.internalComment":null,"objectCompound.conceptId":null,"objectCompound.enantiomerOfId":null,"objectCompound.concept.conceptId":null,"objectCompound.concept.conceptName":null,"objectCompound.concept.domainId":null,"objectCompound.concept.vocabularyId":null,"objectCompound.concept.conceptClassId":null,"objectCompound.concept.standardConcept":null,"objectCompound.concept.conceptCode":null,"objectCompound.concept.validStartDate":null,"objectCompound.concept.validEndDate":null,"objectCompound.concept.invalid_reason":null,"precipitantCompound.id":null,"precipitantCompound.name":null,"precipitantCompound.unii":null,"precipitantCompound.inChIKey":null,"precipitantCompound.publicDescription":null,"precipitantCompound.internalComment":null,"precipitantCompound.conceptId":null,"precipitantCompound.enantiomerOfId":null,"precipitantCompound.concept.conceptId":null,"precipitantCompound.concept.conceptName":null,"precipitantCompound.concept.domainId":null,"precipitantCompound.concept.vocabularyId":null,"precipitantCompound.concept.conceptClassId":null,"precipitantCompound.concept.standardConcept":null,"precipitantCompound.concept.conceptCode":null,"precipitantCompound.concept.validStartDate":null,"precipitantCompound.concept.validEndDate":null,"precipitantCompound.concept.invalid_reason":null,"objectMetaboliteCompound.id":null,"objectMetaboliteCompound.name":null,"objectMetaboliteCompound.unii":null,"objectMetaboliteCompound.inChIKey":null,"objectMetaboliteCompound.publicDescription":null,"objectMetaboliteCompound.internalComment":null,"objectMetaboliteCompound.conceptId":null,"objectMetaboliteCompound.enantiomerOfId":null,"objectMetaboliteCompound.concept.conceptId":null,"objectMetaboliteCompound.concept.conceptName":null,"objectMetaboliteCompound.concept.domainId":null,"objectMetaboliteCompound.concept.vocabularyId":null,"objectMetaboliteCompound.concept.conceptClassId":null,"objectMetaboliteCompound.concept.standardConcept":null,"objectMetaboliteCompound.concept.conceptCode":null,"objectMetaboliteCompound.concept.validStartDate":null,"objectMetaboliteCompound.concept.validEndDate":null,"objectMetaboliteCompound.concept.invalid_reason":null,"enzymes.id":null,"enzymes.name":null,"enzymes.conceptId":null,"enzymes.experiment_enzyme_xref.enzymeId":null,"enzymes.experiment_enzyme_xref.experimentId":null,"transporters.id":null,"transporters.name":null,"transporters.conceptId":null,"transporters.experiment_transporter_xref.experimentId":null,"transporters.experiment_transporter_xref.transporterId":null,"quantifiedMetabolites.id":232,"quantifiedMetabolites.name":"isoliquiritin apioside","quantifiedMetabolites.unii":null,"quantifiedMetabolites.inChIKey":"VMMVZVPAYFZNBM-KVFWHIKKSA-N","quantifiedMetabolites.publicDescription":null,"quantifiedMetabolites.internalComment":null,"quantifiedMetabolites.conceptId":null,"quantifiedMetabolites.enantiomerOfId":null,"quantifiedMetabolites.experiment_quantified_metabolite_xref.com":232,"quantifiedMetabolites.experiment_quantified_metabolite_xref.exp":776,"study.id":155,"study.uid":"NPDI-Lm3PvA","study.name":"Cytochrome P450 inhibition by licorice species Glycyrrhiza uralensis and fourteen licorice constituents","study.napdiIdentifier":null,"study.overallSummary":"

The potential of licorice dietary supplements to interact with drug metabolism was evaluated by testing extracts of botanically identified licorice species Glycyrrhiza uralensis and 14 isolated licorice compounds for inhibition of 9 cytochrome P450 enzymes using a UHPLC-MS/MS cocktail assay. G. uralensis strongly inhibited CYP2B6 and moderately inhibited CYP2C8, CYP2C9 and CYP2C19. The licorice compounds isoliquiritigenin, licoricidin, licochalcone A, 18β-glycyrrhetinic acid, and glycycoumarin inhibited one or more members of the CYP2C family of enzymes. Glycycoumarin and licochalcone A inhibited CYP1A2, but only glycycoumarin inhibited CYP2B6. Isoliquiritigenin, glabridin and licoricidin competitively inhibited CYP3A4. The licorice species commonly used in botanical dietary supplements have varying potential for drug-botanical interactions as inhibitors of cytochrome P450 isoforms. Each species of licorice displays a unique profile of constituents with potential for drug interactions.

","study.pubmedId":28774812,"study.embaseId":null,"study.croIdentifier":"UIC","study.croInformation":"UIC","study.dateStart":"2017-03-22T00:00:00.000Z","study.dateEnd":"2017-07-30T00:00:00.000Z","study.internalComment":null,"study.status":"published","study.compoundId":null,"study.naturalProductUid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProductSampleId":null,"study.studySourceTypeId":1,"study.naturalProduct.uid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProduct.binomial":"Glycyrrhiza uralensis","study.naturalProduct.name":"Licorice","study.naturalProduct.itis":null,"study.naturalProduct.srs":"dc6f848b-18bb-4620-81b1-b2af39721bd9","study.naturalProduct.source_id":"","study.naturalProduct.conceptId":null,"study.naturalProduct.concept.conceptId":null,"study.naturalProduct.concept.conceptName":null,"study.naturalProduct.concept.domainId":null,"study.naturalProduct.concept.vocabularyId":null,"study.naturalProduct.concept.conceptClassId":null,"study.naturalProduct.concept.standardConcept":null,"study.naturalProduct.concept.conceptCode":null,"study.naturalProduct.concept.validStartDate":null,"study.naturalProduct.concept.validEndDate":null,"study.naturalProduct.concept.invalid_reason":null,"study.compound.id":null,"study.compound.name":null,"study.compound.unii":null,"study.compound.inChIKey":null,"study.compound.publicDescription":null,"study.compound.internalComment":null,"study.compound.conceptId":null,"study.compound.enantiomerOfId":null,"study.studySourceType.id":1,"study.studySourceType.name":"Published report","testSystem.id":null,"testSystem.name":null,"testSystem.sortOrder":null,"testSystem.conceptId":null,"testSystem.categoryId":null,"testSystem.category.id":null,"testSystem.category.name":null,"testSystem.category.sortOrder":null,"testSystem.category.requiresCytochromeB5":null,"cytochromeB5.id":null,"cytochromeB5.name":null,"cytochromeB5.sortOrder":null,"cytochromeB5.conceptId":null,"controlDataExperiment.id":null,"controlDataExperiment.uid":null,"controlDataExperiment.name":null,"controlDataExperiment.overallEffect":null,"controlDataExperiment.isControlData":null,"controlDataExperiment.isIc50Shift":null,"controlDataExperiment.croCutoff":null,"controlDataExperiment.croIdentifier":null,"controlDataExperiment.comment":null,"controlDataExperiment.experimentalConditionsComment":null,"controlDataExperiment.resultsComment":null,"controlDataExperiment.internalComment":null,"controlDataExperiment.objectCompoundId":null,"controlDataExperiment.objectMetaboliteCompoundId":null,"controlDataExperiment.precipitantCompoundId":null,"controlDataExperiment.cytochromeB5Id":null,"controlDataExperiment.studyId":null,"controlDataExperiment.experimentTypeId":null,"controlDataExperiment.testSystemId":null,"controlDataExperiment.ic50ShiftExperimentId":null,"controlDataExperiment.controlDataExperimentId":null,"controlDataExperiment.controlDataForExperimentId":null,"controlDataExperiment.naturalProductSampleId":null,"controlDataExperiment.experimentType.id":null,"controlDataExperiment.experimentType.name":null,"controlDataExperiment.experimentType.isInVitro":null,"controlDataExperiment.experimentType.isTransporter":null,"controlDataExperiment.experimentType.isEnzyme":null,"controlDataExperiment.experimentType.purl":null,"controlDataExperiment.objectCompound.id":null,"controlDataExperiment.objectCompound.name":null,"controlDataExperiment.objectCompound.unii":null,"controlDataExperiment.objectCompound.inChIKey":null,"controlDataExperiment.objectCompound.publicDescription":null,"controlDataExperiment.objectCompound.internalComment":null,"controlDataExperiment.objectCompound.conceptId":null,"controlDataExperiment.objectCompound.enantiomerOfId":null,"controlDataExperiment.precipitantCompound.id":null,"controlDataExperiment.precipitantCompound.name":null,"controlDataExperiment.precipitantCompound.unii":null,"controlDataExperiment.precipitantCompound.inChIKey":null,"controlDataExperiment.precipitantCompound.publicDescription":null,"controlDataExperiment.precipitantCompound.internalComment":null,"controlDataExperiment.precipitantCompound.conceptId":null,"controlDataExperiment.precipitantCompound.enantiomerOfId":null,"controlDataExperiment.objectMetaboliteCompound.id":null,"controlDataExperiment.objectMetaboliteCompound.name":null,"controlDataExperiment.objectMetaboliteCompound.unii":null,"controlDataExperiment.objectMetaboliteCompound.inChIKey":null,"controlDataExperiment.objectMetaboliteCompound.publicDescriptio":null,"controlDataExperiment.objectMetaboliteCompound.internalComment":null,"controlDataExperiment.objectMetaboliteCompound.conceptId":null,"controlDataExperiment.objectMetaboliteCompound.enantiomerOfId":null,"controlDataExperiment.enzymes.id":null,"controlDataExperiment.enzymes.name":null,"controlDataExperiment.enzymes.conceptId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.enzymeId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.experiment":null,"controlDataExperiment.transporters.id":null,"controlDataExperiment.transporters.name":null,"controlDataExperiment.transporters.conceptId":null,"controlDataExperiment.transporters.experiment_transporter_xref.":null,"controlDataExperiment.quantifiedMetabolites.id":null,"controlDataExperiment.quantifiedMetabolites.name":null,"controlDataExperiment.quantifiedMetabolites.unii":null,"controlDataExperiment.quantifiedMetabolites.inChIKey":null,"controlDataExperiment.quantifiedMetabolites.publicDescription":null,"controlDataExperiment.quantifiedMetabolites.internalComment":null,"controlDataExperiment.quantifiedMetabolites.conceptId":null,"controlDataExperiment.quantifiedMetabolites.enantiomerOfId":null,"controlDataExperiment.quantifiedMetabolites.experiment_quantifi":null,"experimentAnswers.id":14137,"experimentAnswers.text":"ethanol, isopropanol, water (90:5:5, v/v/v)","experimentAnswers.answerId":null,"experimentAnswers.experimentId":776,"experimentAnswers.questionId":1104,"experimentAnswers.question.id":1104,"experimentAnswers.question.text":"Solvent used","experimentAnswers.question.required":false,"experimentAnswers.question.maxAnswers":1,"experimentAnswers.question.type":"STRING","experimentAnswers.question.conceptId":null,"experimentAnswers.question.answers.id":null,"experimentAnswers.question.answers.text":null,"experimentAnswers.question.answers.sortOrder":null,"experimentAnswers.question.answers.conceptId":null,"experimentAnswers.question.answers.questionId":null,"experimentAnswers.answer.id":null,"experimentAnswers.answer.text":null,"experimentAnswers.answer.sortOrder":null,"experimentAnswers.answer.conceptId":null,"experimentAnswers.answer.questionId":null},{"id":776,"uid":"NPDI-ebe-GA","name":"Chemical characterization of Licorice, Glycyrrhiza uralensis","overallEffect":0,"isControlData":false,"isIc50Shift":false,"croCutoff":null,"croIdentifier":null,"comment":null,"experimentalConditionsComment":null,"resultsComment":"% weight compound/weight extract

glabridin, licochalcone a had quantities of 0 and were excluded from the results","internalComment":null,"objectCompoundId":null,"objectMetaboliteCompoundId":null,"precipitantCompoundId":null,"cytochromeB5Id":null,"studyId":155,"experimentTypeId":10,"testSystemId":null,"ic50ShiftExperimentId":null,"controlDataExperimentId":null,"controlDataForExperimentId":null,"naturalProductSampleId":null,"experimentType.id":10,"experimentType.name":"Characterization of Material","experimentType.isInVitro":false,"experimentType.isTransporter":false,"experimentType.isEnzyme":false,"experimentType.purl":"http://purl.obolibrary.org/obo/DIDEO_00005004","objectCompound.id":null,"objectCompound.name":null,"objectCompound.unii":null,"objectCompound.inChIKey":null,"objectCompound.publicDescription":null,"objectCompound.internalComment":null,"objectCompound.conceptId":null,"objectCompound.enantiomerOfId":null,"objectCompound.concept.conceptId":null,"objectCompound.concept.conceptName":null,"objectCompound.concept.domainId":null,"objectCompound.concept.vocabularyId":null,"objectCompound.concept.conceptClassId":null,"objectCompound.concept.standardConcept":null,"objectCompound.concept.conceptCode":null,"objectCompound.concept.validStartDate":null,"objectCompound.concept.validEndDate":null,"objectCompound.concept.invalid_reason":null,"precipitantCompound.id":null,"precipitantCompound.name":null,"precipitantCompound.unii":null,"precipitantCompound.inChIKey":null,"precipitantCompound.publicDescription":null,"precipitantCompound.internalComment":null,"precipitantCompound.conceptId":null,"precipitantCompound.enantiomerOfId":null,"precipitantCompound.concept.conceptId":null,"precipitantCompound.concept.conceptName":null,"precipitantCompound.concept.domainId":null,"precipitantCompound.concept.vocabularyId":null,"precipitantCompound.concept.conceptClassId":null,"precipitantCompound.concept.standardConcept":null,"precipitantCompound.concept.conceptCode":null,"precipitantCompound.concept.validStartDate":null,"precipitantCompound.concept.validEndDate":null,"precipitantCompound.concept.invalid_reason":null,"objectMetaboliteCompound.id":null,"objectMetaboliteCompound.name":null,"objectMetaboliteCompound.unii":null,"objectMetaboliteCompound.inChIKey":null,"objectMetaboliteCompound.publicDescription":null,"objectMetaboliteCompound.internalComment":null,"objectMetaboliteCompound.conceptId":null,"objectMetaboliteCompound.enantiomerOfId":null,"objectMetaboliteCompound.concept.conceptId":null,"objectMetaboliteCompound.concept.conceptName":null,"objectMetaboliteCompound.concept.domainId":null,"objectMetaboliteCompound.concept.vocabularyId":null,"objectMetaboliteCompound.concept.conceptClassId":null,"objectMetaboliteCompound.concept.standardConcept":null,"objectMetaboliteCompound.concept.conceptCode":null,"objectMetaboliteCompound.concept.validStartDate":null,"objectMetaboliteCompound.concept.validEndDate":null,"objectMetaboliteCompound.concept.invalid_reason":null,"enzymes.id":null,"enzymes.name":null,"enzymes.conceptId":null,"enzymes.experiment_enzyme_xref.enzymeId":null,"enzymes.experiment_enzyme_xref.experimentId":null,"transporters.id":null,"transporters.name":null,"transporters.conceptId":null,"transporters.experiment_transporter_xref.experimentId":null,"transporters.experiment_transporter_xref.transporterId":null,"quantifiedMetabolites.id":232,"quantifiedMetabolites.name":"isoliquiritin apioside","quantifiedMetabolites.unii":null,"quantifiedMetabolites.inChIKey":"VMMVZVPAYFZNBM-KVFWHIKKSA-N","quantifiedMetabolites.publicDescription":null,"quantifiedMetabolites.internalComment":null,"quantifiedMetabolites.conceptId":null,"quantifiedMetabolites.enantiomerOfId":null,"quantifiedMetabolites.experiment_quantified_metabolite_xref.com":232,"quantifiedMetabolites.experiment_quantified_metabolite_xref.exp":776,"study.id":155,"study.uid":"NPDI-Lm3PvA","study.name":"Cytochrome P450 inhibition by licorice species Glycyrrhiza uralensis and fourteen licorice constituents","study.napdiIdentifier":null,"study.overallSummary":"

The potential of licorice dietary supplements to interact with drug metabolism was evaluated by testing extracts of botanically identified licorice species Glycyrrhiza uralensis and 14 isolated licorice compounds for inhibition of 9 cytochrome P450 enzymes using a UHPLC-MS/MS cocktail assay. G. uralensis strongly inhibited CYP2B6 and moderately inhibited CYP2C8, CYP2C9 and CYP2C19. The licorice compounds isoliquiritigenin, licoricidin, licochalcone A, 18β-glycyrrhetinic acid, and glycycoumarin inhibited one or more members of the CYP2C family of enzymes. Glycycoumarin and licochalcone A inhibited CYP1A2, but only glycycoumarin inhibited CYP2B6. Isoliquiritigenin, glabridin and licoricidin competitively inhibited CYP3A4. The licorice species commonly used in botanical dietary supplements have varying potential for drug-botanical interactions as inhibitors of cytochrome P450 isoforms. Each species of licorice displays a unique profile of constituents with potential for drug interactions.

","study.pubmedId":28774812,"study.embaseId":null,"study.croIdentifier":"UIC","study.croInformation":"UIC","study.dateStart":"2017-03-22T00:00:00.000Z","study.dateEnd":"2017-07-30T00:00:00.000Z","study.internalComment":null,"study.status":"published","study.compoundId":null,"study.naturalProductUid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProductSampleId":null,"study.studySourceTypeId":1,"study.naturalProduct.uid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProduct.binomial":"Glycyrrhiza uralensis","study.naturalProduct.name":"Licorice","study.naturalProduct.itis":null,"study.naturalProduct.srs":"dc6f848b-18bb-4620-81b1-b2af39721bd9","study.naturalProduct.source_id":"","study.naturalProduct.conceptId":null,"study.naturalProduct.concept.conceptId":null,"study.naturalProduct.concept.conceptName":null,"study.naturalProduct.concept.domainId":null,"study.naturalProduct.concept.vocabularyId":null,"study.naturalProduct.concept.conceptClassId":null,"study.naturalProduct.concept.standardConcept":null,"study.naturalProduct.concept.conceptCode":null,"study.naturalProduct.concept.validStartDate":null,"study.naturalProduct.concept.validEndDate":null,"study.naturalProduct.concept.invalid_reason":null,"study.compound.id":null,"study.compound.name":null,"study.compound.unii":null,"study.compound.inChIKey":null,"study.compound.publicDescription":null,"study.compound.internalComment":null,"study.compound.conceptId":null,"study.compound.enantiomerOfId":null,"study.studySourceType.id":1,"study.studySourceType.name":"Published report","testSystem.id":null,"testSystem.name":null,"testSystem.sortOrder":null,"testSystem.conceptId":null,"testSystem.categoryId":null,"testSystem.category.id":null,"testSystem.category.name":null,"testSystem.category.sortOrder":null,"testSystem.category.requiresCytochromeB5":null,"cytochromeB5.id":null,"cytochromeB5.name":null,"cytochromeB5.sortOrder":null,"cytochromeB5.conceptId":null,"controlDataExperiment.id":null,"controlDataExperiment.uid":null,"controlDataExperiment.name":null,"controlDataExperiment.overallEffect":null,"controlDataExperiment.isControlData":null,"controlDataExperiment.isIc50Shift":null,"controlDataExperiment.croCutoff":null,"controlDataExperiment.croIdentifier":null,"controlDataExperiment.comment":null,"controlDataExperiment.experimentalConditionsComment":null,"controlDataExperiment.resultsComment":null,"controlDataExperiment.internalComment":null,"controlDataExperiment.objectCompoundId":null,"controlDataExperiment.objectMetaboliteCompoundId":null,"controlDataExperiment.precipitantCompoundId":null,"controlDataExperiment.cytochromeB5Id":null,"controlDataExperiment.studyId":null,"controlDataExperiment.experimentTypeId":null,"controlDataExperiment.testSystemId":null,"controlDataExperiment.ic50ShiftExperimentId":null,"controlDataExperiment.controlDataExperimentId":null,"controlDataExperiment.controlDataForExperimentId":null,"controlDataExperiment.naturalProductSampleId":null,"controlDataExperiment.experimentType.id":null,"controlDataExperiment.experimentType.name":null,"controlDataExperiment.experimentType.isInVitro":null,"controlDataExperiment.experimentType.isTransporter":null,"controlDataExperiment.experimentType.isEnzyme":null,"controlDataExperiment.experimentType.purl":null,"controlDataExperiment.objectCompound.id":null,"controlDataExperiment.objectCompound.name":null,"controlDataExperiment.objectCompound.unii":null,"controlDataExperiment.objectCompound.inChIKey":null,"controlDataExperiment.objectCompound.publicDescription":null,"controlDataExperiment.objectCompound.internalComment":null,"controlDataExperiment.objectCompound.conceptId":null,"controlDataExperiment.objectCompound.enantiomerOfId":null,"controlDataExperiment.precipitantCompound.id":null,"controlDataExperiment.precipitantCompound.name":null,"controlDataExperiment.precipitantCompound.unii":null,"controlDataExperiment.precipitantCompound.inChIKey":null,"controlDataExperiment.precipitantCompound.publicDescription":null,"controlDataExperiment.precipitantCompound.internalComment":null,"controlDataExperiment.precipitantCompound.conceptId":null,"controlDataExperiment.precipitantCompound.enantiomerOfId":null,"controlDataExperiment.objectMetaboliteCompound.id":null,"controlDataExperiment.objectMetaboliteCompound.name":null,"controlDataExperiment.objectMetaboliteCompound.unii":null,"controlDataExperiment.objectMetaboliteCompound.inChIKey":null,"controlDataExperiment.objectMetaboliteCompound.publicDescriptio":null,"controlDataExperiment.objectMetaboliteCompound.internalComment":null,"controlDataExperiment.objectMetaboliteCompound.conceptId":null,"controlDataExperiment.objectMetaboliteCompound.enantiomerOfId":null,"controlDataExperiment.enzymes.id":null,"controlDataExperiment.enzymes.name":null,"controlDataExperiment.enzymes.conceptId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.enzymeId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.experiment":null,"controlDataExperiment.transporters.id":null,"controlDataExperiment.transporters.name":null,"controlDataExperiment.transporters.conceptId":null,"controlDataExperiment.transporters.experiment_transporter_xref.":null,"controlDataExperiment.quantifiedMetabolites.id":null,"controlDataExperiment.quantifiedMetabolites.name":null,"controlDataExperiment.quantifiedMetabolites.unii":null,"controlDataExperiment.quantifiedMetabolites.inChIKey":null,"controlDataExperiment.quantifiedMetabolites.publicDescription":null,"controlDataExperiment.quantifiedMetabolites.internalComment":null,"controlDataExperiment.quantifiedMetabolites.conceptId":null,"controlDataExperiment.quantifiedMetabolites.enantiomerOfId":null,"controlDataExperiment.quantifiedMetabolites.experiment_quantifi":null,"experimentAnswers.id":14138,"experimentAnswers.text":"species checked with DNA barcoding, and comparison with voucher specimens at the Field Museum of Natural History, Chicago.","experimentAnswers.answerId":null,"experimentAnswers.experimentId":776,"experimentAnswers.questionId":1106,"experimentAnswers.question.id":1106,"experimentAnswers.question.text":"Material preparation additional information","experimentAnswers.question.required":false,"experimentAnswers.question.maxAnswers":1,"experimentAnswers.question.type":"TEXT","experimentAnswers.question.conceptId":null,"experimentAnswers.question.answers.id":null,"experimentAnswers.question.answers.text":null,"experimentAnswers.question.answers.sortOrder":null,"experimentAnswers.question.answers.conceptId":null,"experimentAnswers.question.answers.questionId":null,"experimentAnswers.answer.id":null,"experimentAnswers.answer.text":null,"experimentAnswers.answer.sortOrder":null,"experimentAnswers.answer.conceptId":null,"experimentAnswers.answer.questionId":null},{"id":776,"uid":"NPDI-ebe-GA","name":"Chemical characterization of Licorice, Glycyrrhiza uralensis","overallEffect":0,"isControlData":false,"isIc50Shift":false,"croCutoff":null,"croIdentifier":null,"comment":null,"experimentalConditionsComment":null,"resultsComment":"% weight compound/weight extract

glabridin, licochalcone a had quantities of 0 and were excluded from the results","internalComment":null,"objectCompoundId":null,"objectMetaboliteCompoundId":null,"precipitantCompoundId":null,"cytochromeB5Id":null,"studyId":155,"experimentTypeId":10,"testSystemId":null,"ic50ShiftExperimentId":null,"controlDataExperimentId":null,"controlDataForExperimentId":null,"naturalProductSampleId":null,"experimentType.id":10,"experimentType.name":"Characterization of Material","experimentType.isInVitro":false,"experimentType.isTransporter":false,"experimentType.isEnzyme":false,"experimentType.purl":"http://purl.obolibrary.org/obo/DIDEO_00005004","objectCompound.id":null,"objectCompound.name":null,"objectCompound.unii":null,"objectCompound.inChIKey":null,"objectCompound.publicDescription":null,"objectCompound.internalComment":null,"objectCompound.conceptId":null,"objectCompound.enantiomerOfId":null,"objectCompound.concept.conceptId":null,"objectCompound.concept.conceptName":null,"objectCompound.concept.domainId":null,"objectCompound.concept.vocabularyId":null,"objectCompound.concept.conceptClassId":null,"objectCompound.concept.standardConcept":null,"objectCompound.concept.conceptCode":null,"objectCompound.concept.validStartDate":null,"objectCompound.concept.validEndDate":null,"objectCompound.concept.invalid_reason":null,"precipitantCompound.id":null,"precipitantCompound.name":null,"precipitantCompound.unii":null,"precipitantCompound.inChIKey":null,"precipitantCompound.publicDescription":null,"precipitantCompound.internalComment":null,"precipitantCompound.conceptId":null,"precipitantCompound.enantiomerOfId":null,"precipitantCompound.concept.conceptId":null,"precipitantCompound.concept.conceptName":null,"precipitantCompound.concept.domainId":null,"precipitantCompound.concept.vocabularyId":null,"precipitantCompound.concept.conceptClassId":null,"precipitantCompound.concept.standardConcept":null,"precipitantCompound.concept.conceptCode":null,"precipitantCompound.concept.validStartDate":null,"precipitantCompound.concept.validEndDate":null,"precipitantCompound.concept.invalid_reason":null,"objectMetaboliteCompound.id":null,"objectMetaboliteCompound.name":null,"objectMetaboliteCompound.unii":null,"objectMetaboliteCompound.inChIKey":null,"objectMetaboliteCompound.publicDescription":null,"objectMetaboliteCompound.internalComment":null,"objectMetaboliteCompound.conceptId":null,"objectMetaboliteCompound.enantiomerOfId":null,"objectMetaboliteCompound.concept.conceptId":null,"objectMetaboliteCompound.concept.conceptName":null,"objectMetaboliteCompound.concept.domainId":null,"objectMetaboliteCompound.concept.vocabularyId":null,"objectMetaboliteCompound.concept.conceptClassId":null,"objectMetaboliteCompound.concept.standardConcept":null,"objectMetaboliteCompound.concept.conceptCode":null,"objectMetaboliteCompound.concept.validStartDate":null,"objectMetaboliteCompound.concept.validEndDate":null,"objectMetaboliteCompound.concept.invalid_reason":null,"enzymes.id":null,"enzymes.name":null,"enzymes.conceptId":null,"enzymes.experiment_enzyme_xref.enzymeId":null,"enzymes.experiment_enzyme_xref.experimentId":null,"transporters.id":null,"transporters.name":null,"transporters.conceptId":null,"transporters.experiment_transporter_xref.experimentId":null,"transporters.experiment_transporter_xref.transporterId":null,"quantifiedMetabolites.id":232,"quantifiedMetabolites.name":"isoliquiritin apioside","quantifiedMetabolites.unii":null,"quantifiedMetabolites.inChIKey":"VMMVZVPAYFZNBM-KVFWHIKKSA-N","quantifiedMetabolites.publicDescription":null,"quantifiedMetabolites.internalComment":null,"quantifiedMetabolites.conceptId":null,"quantifiedMetabolites.enantiomerOfId":null,"quantifiedMetabolites.experiment_quantified_metabolite_xref.com":232,"quantifiedMetabolites.experiment_quantified_metabolite_xref.exp":776,"study.id":155,"study.uid":"NPDI-Lm3PvA","study.name":"Cytochrome P450 inhibition by licorice species Glycyrrhiza uralensis and fourteen licorice constituents","study.napdiIdentifier":null,"study.overallSummary":"

The potential of licorice dietary supplements to interact with drug metabolism was evaluated by testing extracts of botanically identified licorice species Glycyrrhiza uralensis and 14 isolated licorice compounds for inhibition of 9 cytochrome P450 enzymes using a UHPLC-MS/MS cocktail assay. G. uralensis strongly inhibited CYP2B6 and moderately inhibited CYP2C8, CYP2C9 and CYP2C19. The licorice compounds isoliquiritigenin, licoricidin, licochalcone A, 18β-glycyrrhetinic acid, and glycycoumarin inhibited one or more members of the CYP2C family of enzymes. Glycycoumarin and licochalcone A inhibited CYP1A2, but only glycycoumarin inhibited CYP2B6. Isoliquiritigenin, glabridin and licoricidin competitively inhibited CYP3A4. The licorice species commonly used in botanical dietary supplements have varying potential for drug-botanical interactions as inhibitors of cytochrome P450 isoforms. Each species of licorice displays a unique profile of constituents with potential for drug interactions.

","study.pubmedId":28774812,"study.embaseId":null,"study.croIdentifier":"UIC","study.croInformation":"UIC","study.dateStart":"2017-03-22T00:00:00.000Z","study.dateEnd":"2017-07-30T00:00:00.000Z","study.internalComment":null,"study.status":"published","study.compoundId":null,"study.naturalProductUid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProductSampleId":null,"study.studySourceTypeId":1,"study.naturalProduct.uid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProduct.binomial":"Glycyrrhiza uralensis","study.naturalProduct.name":"Licorice","study.naturalProduct.itis":null,"study.naturalProduct.srs":"dc6f848b-18bb-4620-81b1-b2af39721bd9","study.naturalProduct.source_id":"","study.naturalProduct.conceptId":null,"study.naturalProduct.concept.conceptId":null,"study.naturalProduct.concept.conceptName":null,"study.naturalProduct.concept.domainId":null,"study.naturalProduct.concept.vocabularyId":null,"study.naturalProduct.concept.conceptClassId":null,"study.naturalProduct.concept.standardConcept":null,"study.naturalProduct.concept.conceptCode":null,"study.naturalProduct.concept.validStartDate":null,"study.naturalProduct.concept.validEndDate":null,"study.naturalProduct.concept.invalid_reason":null,"study.compound.id":null,"study.compound.name":null,"study.compound.unii":null,"study.compound.inChIKey":null,"study.compound.publicDescription":null,"study.compound.internalComment":null,"study.compound.conceptId":null,"study.compound.enantiomerOfId":null,"study.studySourceType.id":1,"study.studySourceType.name":"Published report","testSystem.id":null,"testSystem.name":null,"testSystem.sortOrder":null,"testSystem.conceptId":null,"testSystem.categoryId":null,"testSystem.category.id":null,"testSystem.category.name":null,"testSystem.category.sortOrder":null,"testSystem.category.requiresCytochromeB5":null,"cytochromeB5.id":null,"cytochromeB5.name":null,"cytochromeB5.sortOrder":null,"cytochromeB5.conceptId":null,"controlDataExperiment.id":null,"controlDataExperiment.uid":null,"controlDataExperiment.name":null,"controlDataExperiment.overallEffect":null,"controlDataExperiment.isControlData":null,"controlDataExperiment.isIc50Shift":null,"controlDataExperiment.croCutoff":null,"controlDataExperiment.croIdentifier":null,"controlDataExperiment.comment":null,"controlDataExperiment.experimentalConditionsComment":null,"controlDataExperiment.resultsComment":null,"controlDataExperiment.internalComment":null,"controlDataExperiment.objectCompoundId":null,"controlDataExperiment.objectMetaboliteCompoundId":null,"controlDataExperiment.precipitantCompoundId":null,"controlDataExperiment.cytochromeB5Id":null,"controlDataExperiment.studyId":null,"controlDataExperiment.experimentTypeId":null,"controlDataExperiment.testSystemId":null,"controlDataExperiment.ic50ShiftExperimentId":null,"controlDataExperiment.controlDataExperimentId":null,"controlDataExperiment.controlDataForExperimentId":null,"controlDataExperiment.naturalProductSampleId":null,"controlDataExperiment.experimentType.id":null,"controlDataExperiment.experimentType.name":null,"controlDataExperiment.experimentType.isInVitro":null,"controlDataExperiment.experimentType.isTransporter":null,"controlDataExperiment.experimentType.isEnzyme":null,"controlDataExperiment.experimentType.purl":null,"controlDataExperiment.objectCompound.id":null,"controlDataExperiment.objectCompound.name":null,"controlDataExperiment.objectCompound.unii":null,"controlDataExperiment.objectCompound.inChIKey":null,"controlDataExperiment.objectCompound.publicDescription":null,"controlDataExperiment.objectCompound.internalComment":null,"controlDataExperiment.objectCompound.conceptId":null,"controlDataExperiment.objectCompound.enantiomerOfId":null,"controlDataExperiment.precipitantCompound.id":null,"controlDataExperiment.precipitantCompound.name":null,"controlDataExperiment.precipitantCompound.unii":null,"controlDataExperiment.precipitantCompound.inChIKey":null,"controlDataExperiment.precipitantCompound.publicDescription":null,"controlDataExperiment.precipitantCompound.internalComment":null,"controlDataExperiment.precipitantCompound.conceptId":null,"controlDataExperiment.precipitantCompound.enantiomerOfId":null,"controlDataExperiment.objectMetaboliteCompound.id":null,"controlDataExperiment.objectMetaboliteCompound.name":null,"controlDataExperiment.objectMetaboliteCompound.unii":null,"controlDataExperiment.objectMetaboliteCompound.inChIKey":null,"controlDataExperiment.objectMetaboliteCompound.publicDescriptio":null,"controlDataExperiment.objectMetaboliteCompound.internalComment":null,"controlDataExperiment.objectMetaboliteCompound.conceptId":null,"controlDataExperiment.objectMetaboliteCompound.enantiomerOfId":null,"controlDataExperiment.enzymes.id":null,"controlDataExperiment.enzymes.name":null,"controlDataExperiment.enzymes.conceptId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.enzymeId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.experiment":null,"controlDataExperiment.transporters.id":null,"controlDataExperiment.transporters.name":null,"controlDataExperiment.transporters.conceptId":null,"controlDataExperiment.transporters.experiment_transporter_xref.":null,"controlDataExperiment.quantifiedMetabolites.id":null,"controlDataExperiment.quantifiedMetabolites.name":null,"controlDataExperiment.quantifiedMetabolites.unii":null,"controlDataExperiment.quantifiedMetabolites.inChIKey":null,"controlDataExperiment.quantifiedMetabolites.publicDescription":null,"controlDataExperiment.quantifiedMetabolites.internalComment":null,"controlDataExperiment.quantifiedMetabolites.conceptId":null,"controlDataExperiment.quantifiedMetabolites.enantiomerOfId":null,"controlDataExperiment.quantifiedMetabolites.experiment_quantifi":null,"experimentAnswers.id":14139,"experimentAnswers.text":"UHPLC-MS/MS","experimentAnswers.answerId":null,"experimentAnswers.experimentId":776,"experimentAnswers.questionId":1113,"experimentAnswers.question.id":1113,"experimentAnswers.question.text":"Mass spectrometry instrument used","experimentAnswers.question.required":false,"experimentAnswers.question.maxAnswers":1,"experimentAnswers.question.type":"STRING","experimentAnswers.question.conceptId":null,"experimentAnswers.question.answers.id":null,"experimentAnswers.question.answers.text":null,"experimentAnswers.question.answers.sortOrder":null,"experimentAnswers.question.answers.conceptId":null,"experimentAnswers.question.answers.questionId":null,"experimentAnswers.answer.id":null,"experimentAnswers.answer.text":null,"experimentAnswers.answer.sortOrder":null,"experimentAnswers.answer.conceptId":null,"experimentAnswers.answer.questionId":null},{"id":776,"uid":"NPDI-ebe-GA","name":"Chemical characterization of Licorice, Glycyrrhiza uralensis","overallEffect":0,"isControlData":false,"isIc50Shift":false,"croCutoff":null,"croIdentifier":null,"comment":null,"experimentalConditionsComment":null,"resultsComment":"% weight compound/weight extract

glabridin, licochalcone a had quantities of 0 and were excluded from the results","internalComment":null,"objectCompoundId":null,"objectMetaboliteCompoundId":null,"precipitantCompoundId":null,"cytochromeB5Id":null,"studyId":155,"experimentTypeId":10,"testSystemId":null,"ic50ShiftExperimentId":null,"controlDataExperimentId":null,"controlDataForExperimentId":null,"naturalProductSampleId":null,"experimentType.id":10,"experimentType.name":"Characterization of Material","experimentType.isInVitro":false,"experimentType.isTransporter":false,"experimentType.isEnzyme":false,"experimentType.purl":"http://purl.obolibrary.org/obo/DIDEO_00005004","objectCompound.id":null,"objectCompound.name":null,"objectCompound.unii":null,"objectCompound.inChIKey":null,"objectCompound.publicDescription":null,"objectCompound.internalComment":null,"objectCompound.conceptId":null,"objectCompound.enantiomerOfId":null,"objectCompound.concept.conceptId":null,"objectCompound.concept.conceptName":null,"objectCompound.concept.domainId":null,"objectCompound.concept.vocabularyId":null,"objectCompound.concept.conceptClassId":null,"objectCompound.concept.standardConcept":null,"objectCompound.concept.conceptCode":null,"objectCompound.concept.validStartDate":null,"objectCompound.concept.validEndDate":null,"objectCompound.concept.invalid_reason":null,"precipitantCompound.id":null,"precipitantCompound.name":null,"precipitantCompound.unii":null,"precipitantCompound.inChIKey":null,"precipitantCompound.publicDescription":null,"precipitantCompound.internalComment":null,"precipitantCompound.conceptId":null,"precipitantCompound.enantiomerOfId":null,"precipitantCompound.concept.conceptId":null,"precipitantCompound.concept.conceptName":null,"precipitantCompound.concept.domainId":null,"precipitantCompound.concept.vocabularyId":null,"precipitantCompound.concept.conceptClassId":null,"precipitantCompound.concept.standardConcept":null,"precipitantCompound.concept.conceptCode":null,"precipitantCompound.concept.validStartDate":null,"precipitantCompound.concept.validEndDate":null,"precipitantCompound.concept.invalid_reason":null,"objectMetaboliteCompound.id":null,"objectMetaboliteCompound.name":null,"objectMetaboliteCompound.unii":null,"objectMetaboliteCompound.inChIKey":null,"objectMetaboliteCompound.publicDescription":null,"objectMetaboliteCompound.internalComment":null,"objectMetaboliteCompound.conceptId":null,"objectMetaboliteCompound.enantiomerOfId":null,"objectMetaboliteCompound.concept.conceptId":null,"objectMetaboliteCompound.concept.conceptName":null,"objectMetaboliteCompound.concept.domainId":null,"objectMetaboliteCompound.concept.vocabularyId":null,"objectMetaboliteCompound.concept.conceptClassId":null,"objectMetaboliteCompound.concept.standardConcept":null,"objectMetaboliteCompound.concept.conceptCode":null,"objectMetaboliteCompound.concept.validStartDate":null,"objectMetaboliteCompound.concept.validEndDate":null,"objectMetaboliteCompound.concept.invalid_reason":null,"enzymes.id":null,"enzymes.name":null,"enzymes.conceptId":null,"enzymes.experiment_enzyme_xref.enzymeId":null,"enzymes.experiment_enzyme_xref.experimentId":null,"transporters.id":null,"transporters.name":null,"transporters.conceptId":null,"transporters.experiment_transporter_xref.experimentId":null,"transporters.experiment_transporter_xref.transporterId":null,"quantifiedMetabolites.id":242,"quantifiedMetabolites.name":"glycycoumarin","quantifiedMetabolites.unii":null,"quantifiedMetabolites.inChIKey":"NZYSZZDSYIBYLC-UHFFFAOYSA-N","quantifiedMetabolites.publicDescription":null,"quantifiedMetabolites.internalComment":null,"quantifiedMetabolites.conceptId":null,"quantifiedMetabolites.enantiomerOfId":null,"quantifiedMetabolites.experiment_quantified_metabolite_xref.com":242,"quantifiedMetabolites.experiment_quantified_metabolite_xref.exp":776,"study.id":155,"study.uid":"NPDI-Lm3PvA","study.name":"Cytochrome P450 inhibition by licorice species Glycyrrhiza uralensis and fourteen licorice constituents","study.napdiIdentifier":null,"study.overallSummary":"

The potential of licorice dietary supplements to interact with drug metabolism was evaluated by testing extracts of botanically identified licorice species Glycyrrhiza uralensis and 14 isolated licorice compounds for inhibition of 9 cytochrome P450 enzymes using a UHPLC-MS/MS cocktail assay. G. uralensis strongly inhibited CYP2B6 and moderately inhibited CYP2C8, CYP2C9 and CYP2C19. The licorice compounds isoliquiritigenin, licoricidin, licochalcone A, 18β-glycyrrhetinic acid, and glycycoumarin inhibited one or more members of the CYP2C family of enzymes. Glycycoumarin and licochalcone A inhibited CYP1A2, but only glycycoumarin inhibited CYP2B6. Isoliquiritigenin, glabridin and licoricidin competitively inhibited CYP3A4. The licorice species commonly used in botanical dietary supplements have varying potential for drug-botanical interactions as inhibitors of cytochrome P450 isoforms. Each species of licorice displays a unique profile of constituents with potential for drug interactions.

","study.pubmedId":28774812,"study.embaseId":null,"study.croIdentifier":"UIC","study.croInformation":"UIC","study.dateStart":"2017-03-22T00:00:00.000Z","study.dateEnd":"2017-07-30T00:00:00.000Z","study.internalComment":null,"study.status":"published","study.compoundId":null,"study.naturalProductUid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProductSampleId":null,"study.studySourceTypeId":1,"study.naturalProduct.uid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProduct.binomial":"Glycyrrhiza uralensis","study.naturalProduct.name":"Licorice","study.naturalProduct.itis":null,"study.naturalProduct.srs":"dc6f848b-18bb-4620-81b1-b2af39721bd9","study.naturalProduct.source_id":"","study.naturalProduct.conceptId":null,"study.naturalProduct.concept.conceptId":null,"study.naturalProduct.concept.conceptName":null,"study.naturalProduct.concept.domainId":null,"study.naturalProduct.concept.vocabularyId":null,"study.naturalProduct.concept.conceptClassId":null,"study.naturalProduct.concept.standardConcept":null,"study.naturalProduct.concept.conceptCode":null,"study.naturalProduct.concept.validStartDate":null,"study.naturalProduct.concept.validEndDate":null,"study.naturalProduct.concept.invalid_reason":null,"study.compound.id":null,"study.compound.name":null,"study.compound.unii":null,"study.compound.inChIKey":null,"study.compound.publicDescription":null,"study.compound.internalComment":null,"study.compound.conceptId":null,"study.compound.enantiomerOfId":null,"study.studySourceType.id":1,"study.studySourceType.name":"Published report","testSystem.id":null,"testSystem.name":null,"testSystem.sortOrder":null,"testSystem.conceptId":null,"testSystem.categoryId":null,"testSystem.category.id":null,"testSystem.category.name":null,"testSystem.category.sortOrder":null,"testSystem.category.requiresCytochromeB5":null,"cytochromeB5.id":null,"cytochromeB5.name":null,"cytochromeB5.sortOrder":null,"cytochromeB5.conceptId":null,"controlDataExperiment.id":null,"controlDataExperiment.uid":null,"controlDataExperiment.name":null,"controlDataExperiment.overallEffect":null,"controlDataExperiment.isControlData":null,"controlDataExperiment.isIc50Shift":null,"controlDataExperiment.croCutoff":null,"controlDataExperiment.croIdentifier":null,"controlDataExperiment.comment":null,"controlDataExperiment.experimentalConditionsComment":null,"controlDataExperiment.resultsComment":null,"controlDataExperiment.internalComment":null,"controlDataExperiment.objectCompoundId":null,"controlDataExperiment.objectMetaboliteCompoundId":null,"controlDataExperiment.precipitantCompoundId":null,"controlDataExperiment.cytochromeB5Id":null,"controlDataExperiment.studyId":null,"controlDataExperiment.experimentTypeId":null,"controlDataExperiment.testSystemId":null,"controlDataExperiment.ic50ShiftExperimentId":null,"controlDataExperiment.controlDataExperimentId":null,"controlDataExperiment.controlDataForExperimentId":null,"controlDataExperiment.naturalProductSampleId":null,"controlDataExperiment.experimentType.id":null,"controlDataExperiment.experimentType.name":null,"controlDataExperiment.experimentType.isInVitro":null,"controlDataExperiment.experimentType.isTransporter":null,"controlDataExperiment.experimentType.isEnzyme":null,"controlDataExperiment.experimentType.purl":null,"controlDataExperiment.objectCompound.id":null,"controlDataExperiment.objectCompound.name":null,"controlDataExperiment.objectCompound.unii":null,"controlDataExperiment.objectCompound.inChIKey":null,"controlDataExperiment.objectCompound.publicDescription":null,"controlDataExperiment.objectCompound.internalComment":null,"controlDataExperiment.objectCompound.conceptId":null,"controlDataExperiment.objectCompound.enantiomerOfId":null,"controlDataExperiment.precipitantCompound.id":null,"controlDataExperiment.precipitantCompound.name":null,"controlDataExperiment.precipitantCompound.unii":null,"controlDataExperiment.precipitantCompound.inChIKey":null,"controlDataExperiment.precipitantCompound.publicDescription":null,"controlDataExperiment.precipitantCompound.internalComment":null,"controlDataExperiment.precipitantCompound.conceptId":null,"controlDataExperiment.precipitantCompound.enantiomerOfId":null,"controlDataExperiment.objectMetaboliteCompound.id":null,"controlDataExperiment.objectMetaboliteCompound.name":null,"controlDataExperiment.objectMetaboliteCompound.unii":null,"controlDataExperiment.objectMetaboliteCompound.inChIKey":null,"controlDataExperiment.objectMetaboliteCompound.publicDescriptio":null,"controlDataExperiment.objectMetaboliteCompound.internalComment":null,"controlDataExperiment.objectMetaboliteCompound.conceptId":null,"controlDataExperiment.objectMetaboliteCompound.enantiomerOfId":null,"controlDataExperiment.enzymes.id":null,"controlDataExperiment.enzymes.name":null,"controlDataExperiment.enzymes.conceptId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.enzymeId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.experiment":null,"controlDataExperiment.transporters.id":null,"controlDataExperiment.transporters.name":null,"controlDataExperiment.transporters.conceptId":null,"controlDataExperiment.transporters.experiment_transporter_xref.":null,"controlDataExperiment.quantifiedMetabolites.id":null,"controlDataExperiment.quantifiedMetabolites.name":null,"controlDataExperiment.quantifiedMetabolites.unii":null,"controlDataExperiment.quantifiedMetabolites.inChIKey":null,"controlDataExperiment.quantifiedMetabolites.publicDescription":null,"controlDataExperiment.quantifiedMetabolites.internalComment":null,"controlDataExperiment.quantifiedMetabolites.conceptId":null,"controlDataExperiment.quantifiedMetabolites.enantiomerOfId":null,"controlDataExperiment.quantifiedMetabolites.experiment_quantifi":null,"experimentAnswers.id":14137,"experimentAnswers.text":"ethanol, isopropanol, water (90:5:5, v/v/v)","experimentAnswers.answerId":null,"experimentAnswers.experimentId":776,"experimentAnswers.questionId":1104,"experimentAnswers.question.id":1104,"experimentAnswers.question.text":"Solvent used","experimentAnswers.question.required":false,"experimentAnswers.question.maxAnswers":1,"experimentAnswers.question.type":"STRING","experimentAnswers.question.conceptId":null,"experimentAnswers.question.answers.id":null,"experimentAnswers.question.answers.text":null,"experimentAnswers.question.answers.sortOrder":null,"experimentAnswers.question.answers.conceptId":null,"experimentAnswers.question.answers.questionId":null,"experimentAnswers.answer.id":null,"experimentAnswers.answer.text":null,"experimentAnswers.answer.sortOrder":null,"experimentAnswers.answer.conceptId":null,"experimentAnswers.answer.questionId":null},{"id":776,"uid":"NPDI-ebe-GA","name":"Chemical characterization of Licorice, Glycyrrhiza uralensis","overallEffect":0,"isControlData":false,"isIc50Shift":false,"croCutoff":null,"croIdentifier":null,"comment":null,"experimentalConditionsComment":null,"resultsComment":"% weight compound/weight extract

glabridin, licochalcone a had quantities of 0 and were excluded from the results","internalComment":null,"objectCompoundId":null,"objectMetaboliteCompoundId":null,"precipitantCompoundId":null,"cytochromeB5Id":null,"studyId":155,"experimentTypeId":10,"testSystemId":null,"ic50ShiftExperimentId":null,"controlDataExperimentId":null,"controlDataForExperimentId":null,"naturalProductSampleId":null,"experimentType.id":10,"experimentType.name":"Characterization of Material","experimentType.isInVitro":false,"experimentType.isTransporter":false,"experimentType.isEnzyme":false,"experimentType.purl":"http://purl.obolibrary.org/obo/DIDEO_00005004","objectCompound.id":null,"objectCompound.name":null,"objectCompound.unii":null,"objectCompound.inChIKey":null,"objectCompound.publicDescription":null,"objectCompound.internalComment":null,"objectCompound.conceptId":null,"objectCompound.enantiomerOfId":null,"objectCompound.concept.conceptId":null,"objectCompound.concept.conceptName":null,"objectCompound.concept.domainId":null,"objectCompound.concept.vocabularyId":null,"objectCompound.concept.conceptClassId":null,"objectCompound.concept.standardConcept":null,"objectCompound.concept.conceptCode":null,"objectCompound.concept.validStartDate":null,"objectCompound.concept.validEndDate":null,"objectCompound.concept.invalid_reason":null,"precipitantCompound.id":null,"precipitantCompound.name":null,"precipitantCompound.unii":null,"precipitantCompound.inChIKey":null,"precipitantCompound.publicDescription":null,"precipitantCompound.internalComment":null,"precipitantCompound.conceptId":null,"precipitantCompound.enantiomerOfId":null,"precipitantCompound.concept.conceptId":null,"precipitantCompound.concept.conceptName":null,"precipitantCompound.concept.domainId":null,"precipitantCompound.concept.vocabularyId":null,"precipitantCompound.concept.conceptClassId":null,"precipitantCompound.concept.standardConcept":null,"precipitantCompound.concept.conceptCode":null,"precipitantCompound.concept.validStartDate":null,"precipitantCompound.concept.validEndDate":null,"precipitantCompound.concept.invalid_reason":null,"objectMetaboliteCompound.id":null,"objectMetaboliteCompound.name":null,"objectMetaboliteCompound.unii":null,"objectMetaboliteCompound.inChIKey":null,"objectMetaboliteCompound.publicDescription":null,"objectMetaboliteCompound.internalComment":null,"objectMetaboliteCompound.conceptId":null,"objectMetaboliteCompound.enantiomerOfId":null,"objectMetaboliteCompound.concept.conceptId":null,"objectMetaboliteCompound.concept.conceptName":null,"objectMetaboliteCompound.concept.domainId":null,"objectMetaboliteCompound.concept.vocabularyId":null,"objectMetaboliteCompound.concept.conceptClassId":null,"objectMetaboliteCompound.concept.standardConcept":null,"objectMetaboliteCompound.concept.conceptCode":null,"objectMetaboliteCompound.concept.validStartDate":null,"objectMetaboliteCompound.concept.validEndDate":null,"objectMetaboliteCompound.concept.invalid_reason":null,"enzymes.id":null,"enzymes.name":null,"enzymes.conceptId":null,"enzymes.experiment_enzyme_xref.enzymeId":null,"enzymes.experiment_enzyme_xref.experimentId":null,"transporters.id":null,"transporters.name":null,"transporters.conceptId":null,"transporters.experiment_transporter_xref.experimentId":null,"transporters.experiment_transporter_xref.transporterId":null,"quantifiedMetabolites.id":242,"quantifiedMetabolites.name":"glycycoumarin","quantifiedMetabolites.unii":null,"quantifiedMetabolites.inChIKey":"NZYSZZDSYIBYLC-UHFFFAOYSA-N","quantifiedMetabolites.publicDescription":null,"quantifiedMetabolites.internalComment":null,"quantifiedMetabolites.conceptId":null,"quantifiedMetabolites.enantiomerOfId":null,"quantifiedMetabolites.experiment_quantified_metabolite_xref.com":242,"quantifiedMetabolites.experiment_quantified_metabolite_xref.exp":776,"study.id":155,"study.uid":"NPDI-Lm3PvA","study.name":"Cytochrome P450 inhibition by licorice species Glycyrrhiza uralensis and fourteen licorice constituents","study.napdiIdentifier":null,"study.overallSummary":"

The potential of licorice dietary supplements to interact with drug metabolism was evaluated by testing extracts of botanically identified licorice species Glycyrrhiza uralensis and 14 isolated licorice compounds for inhibition of 9 cytochrome P450 enzymes using a UHPLC-MS/MS cocktail assay. G. uralensis strongly inhibited CYP2B6 and moderately inhibited CYP2C8, CYP2C9 and CYP2C19. The licorice compounds isoliquiritigenin, licoricidin, licochalcone A, 18β-glycyrrhetinic acid, and glycycoumarin inhibited one or more members of the CYP2C family of enzymes. Glycycoumarin and licochalcone A inhibited CYP1A2, but only glycycoumarin inhibited CYP2B6. Isoliquiritigenin, glabridin and licoricidin competitively inhibited CYP3A4. The licorice species commonly used in botanical dietary supplements have varying potential for drug-botanical interactions as inhibitors of cytochrome P450 isoforms. Each species of licorice displays a unique profile of constituents with potential for drug interactions.

","study.pubmedId":28774812,"study.embaseId":null,"study.croIdentifier":"UIC","study.croInformation":"UIC","study.dateStart":"2017-03-22T00:00:00.000Z","study.dateEnd":"2017-07-30T00:00:00.000Z","study.internalComment":null,"study.status":"published","study.compoundId":null,"study.naturalProductUid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProductSampleId":null,"study.studySourceTypeId":1,"study.naturalProduct.uid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProduct.binomial":"Glycyrrhiza uralensis","study.naturalProduct.name":"Licorice","study.naturalProduct.itis":null,"study.naturalProduct.srs":"dc6f848b-18bb-4620-81b1-b2af39721bd9","study.naturalProduct.source_id":"","study.naturalProduct.conceptId":null,"study.naturalProduct.concept.conceptId":null,"study.naturalProduct.concept.conceptName":null,"study.naturalProduct.concept.domainId":null,"study.naturalProduct.concept.vocabularyId":null,"study.naturalProduct.concept.conceptClassId":null,"study.naturalProduct.concept.standardConcept":null,"study.naturalProduct.concept.conceptCode":null,"study.naturalProduct.concept.validStartDate":null,"study.naturalProduct.concept.validEndDate":null,"study.naturalProduct.concept.invalid_reason":null,"study.compound.id":null,"study.compound.name":null,"study.compound.unii":null,"study.compound.inChIKey":null,"study.compound.publicDescription":null,"study.compound.internalComment":null,"study.compound.conceptId":null,"study.compound.enantiomerOfId":null,"study.studySourceType.id":1,"study.studySourceType.name":"Published report","testSystem.id":null,"testSystem.name":null,"testSystem.sortOrder":null,"testSystem.conceptId":null,"testSystem.categoryId":null,"testSystem.category.id":null,"testSystem.category.name":null,"testSystem.category.sortOrder":null,"testSystem.category.requiresCytochromeB5":null,"cytochromeB5.id":null,"cytochromeB5.name":null,"cytochromeB5.sortOrder":null,"cytochromeB5.conceptId":null,"controlDataExperiment.id":null,"controlDataExperiment.uid":null,"controlDataExperiment.name":null,"controlDataExperiment.overallEffect":null,"controlDataExperiment.isControlData":null,"controlDataExperiment.isIc50Shift":null,"controlDataExperiment.croCutoff":null,"controlDataExperiment.croIdentifier":null,"controlDataExperiment.comment":null,"controlDataExperiment.experimentalConditionsComment":null,"controlDataExperiment.resultsComment":null,"controlDataExperiment.internalComment":null,"controlDataExperiment.objectCompoundId":null,"controlDataExperiment.objectMetaboliteCompoundId":null,"controlDataExperiment.precipitantCompoundId":null,"controlDataExperiment.cytochromeB5Id":null,"controlDataExperiment.studyId":null,"controlDataExperiment.experimentTypeId":null,"controlDataExperiment.testSystemId":null,"controlDataExperiment.ic50ShiftExperimentId":null,"controlDataExperiment.controlDataExperimentId":null,"controlDataExperiment.controlDataForExperimentId":null,"controlDataExperiment.naturalProductSampleId":null,"controlDataExperiment.experimentType.id":null,"controlDataExperiment.experimentType.name":null,"controlDataExperiment.experimentType.isInVitro":null,"controlDataExperiment.experimentType.isTransporter":null,"controlDataExperiment.experimentType.isEnzyme":null,"controlDataExperiment.experimentType.purl":null,"controlDataExperiment.objectCompound.id":null,"controlDataExperiment.objectCompound.name":null,"controlDataExperiment.objectCompound.unii":null,"controlDataExperiment.objectCompound.inChIKey":null,"controlDataExperiment.objectCompound.publicDescription":null,"controlDataExperiment.objectCompound.internalComment":null,"controlDataExperiment.objectCompound.conceptId":null,"controlDataExperiment.objectCompound.enantiomerOfId":null,"controlDataExperiment.precipitantCompound.id":null,"controlDataExperiment.precipitantCompound.name":null,"controlDataExperiment.precipitantCompound.unii":null,"controlDataExperiment.precipitantCompound.inChIKey":null,"controlDataExperiment.precipitantCompound.publicDescription":null,"controlDataExperiment.precipitantCompound.internalComment":null,"controlDataExperiment.precipitantCompound.conceptId":null,"controlDataExperiment.precipitantCompound.enantiomerOfId":null,"controlDataExperiment.objectMetaboliteCompound.id":null,"controlDataExperiment.objectMetaboliteCompound.name":null,"controlDataExperiment.objectMetaboliteCompound.unii":null,"controlDataExperiment.objectMetaboliteCompound.inChIKey":null,"controlDataExperiment.objectMetaboliteCompound.publicDescriptio":null,"controlDataExperiment.objectMetaboliteCompound.internalComment":null,"controlDataExperiment.objectMetaboliteCompound.conceptId":null,"controlDataExperiment.objectMetaboliteCompound.enantiomerOfId":null,"controlDataExperiment.enzymes.id":null,"controlDataExperiment.enzymes.name":null,"controlDataExperiment.enzymes.conceptId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.enzymeId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.experiment":null,"controlDataExperiment.transporters.id":null,"controlDataExperiment.transporters.name":null,"controlDataExperiment.transporters.conceptId":null,"controlDataExperiment.transporters.experiment_transporter_xref.":null,"controlDataExperiment.quantifiedMetabolites.id":null,"controlDataExperiment.quantifiedMetabolites.name":null,"controlDataExperiment.quantifiedMetabolites.unii":null,"controlDataExperiment.quantifiedMetabolites.inChIKey":null,"controlDataExperiment.quantifiedMetabolites.publicDescription":null,"controlDataExperiment.quantifiedMetabolites.internalComment":null,"controlDataExperiment.quantifiedMetabolites.conceptId":null,"controlDataExperiment.quantifiedMetabolites.enantiomerOfId":null,"controlDataExperiment.quantifiedMetabolites.experiment_quantifi":null,"experimentAnswers.id":14138,"experimentAnswers.text":"species checked with DNA barcoding, and comparison with voucher specimens at the Field Museum of Natural History, Chicago.","experimentAnswers.answerId":null,"experimentAnswers.experimentId":776,"experimentAnswers.questionId":1106,"experimentAnswers.question.id":1106,"experimentAnswers.question.text":"Material preparation additional information","experimentAnswers.question.required":false,"experimentAnswers.question.maxAnswers":1,"experimentAnswers.question.type":"TEXT","experimentAnswers.question.conceptId":null,"experimentAnswers.question.answers.id":null,"experimentAnswers.question.answers.text":null,"experimentAnswers.question.answers.sortOrder":null,"experimentAnswers.question.answers.conceptId":null,"experimentAnswers.question.answers.questionId":null,"experimentAnswers.answer.id":null,"experimentAnswers.answer.text":null,"experimentAnswers.answer.sortOrder":null,"experimentAnswers.answer.conceptId":null,"experimentAnswers.answer.questionId":null},{"id":776,"uid":"NPDI-ebe-GA","name":"Chemical characterization of Licorice, Glycyrrhiza uralensis","overallEffect":0,"isControlData":false,"isIc50Shift":false,"croCutoff":null,"croIdentifier":null,"comment":null,"experimentalConditionsComment":null,"resultsComment":"% weight compound/weight extract

glabridin, licochalcone a had quantities of 0 and were excluded from the results","internalComment":null,"objectCompoundId":null,"objectMetaboliteCompoundId":null,"precipitantCompoundId":null,"cytochromeB5Id":null,"studyId":155,"experimentTypeId":10,"testSystemId":null,"ic50ShiftExperimentId":null,"controlDataExperimentId":null,"controlDataForExperimentId":null,"naturalProductSampleId":null,"experimentType.id":10,"experimentType.name":"Characterization of Material","experimentType.isInVitro":false,"experimentType.isTransporter":false,"experimentType.isEnzyme":false,"experimentType.purl":"http://purl.obolibrary.org/obo/DIDEO_00005004","objectCompound.id":null,"objectCompound.name":null,"objectCompound.unii":null,"objectCompound.inChIKey":null,"objectCompound.publicDescription":null,"objectCompound.internalComment":null,"objectCompound.conceptId":null,"objectCompound.enantiomerOfId":null,"objectCompound.concept.conceptId":null,"objectCompound.concept.conceptName":null,"objectCompound.concept.domainId":null,"objectCompound.concept.vocabularyId":null,"objectCompound.concept.conceptClassId":null,"objectCompound.concept.standardConcept":null,"objectCompound.concept.conceptCode":null,"objectCompound.concept.validStartDate":null,"objectCompound.concept.validEndDate":null,"objectCompound.concept.invalid_reason":null,"precipitantCompound.id":null,"precipitantCompound.name":null,"precipitantCompound.unii":null,"precipitantCompound.inChIKey":null,"precipitantCompound.publicDescription":null,"precipitantCompound.internalComment":null,"precipitantCompound.conceptId":null,"precipitantCompound.enantiomerOfId":null,"precipitantCompound.concept.conceptId":null,"precipitantCompound.concept.conceptName":null,"precipitantCompound.concept.domainId":null,"precipitantCompound.concept.vocabularyId":null,"precipitantCompound.concept.conceptClassId":null,"precipitantCompound.concept.standardConcept":null,"precipitantCompound.concept.conceptCode":null,"precipitantCompound.concept.validStartDate":null,"precipitantCompound.concept.validEndDate":null,"precipitantCompound.concept.invalid_reason":null,"objectMetaboliteCompound.id":null,"objectMetaboliteCompound.name":null,"objectMetaboliteCompound.unii":null,"objectMetaboliteCompound.inChIKey":null,"objectMetaboliteCompound.publicDescription":null,"objectMetaboliteCompound.internalComment":null,"objectMetaboliteCompound.conceptId":null,"objectMetaboliteCompound.enantiomerOfId":null,"objectMetaboliteCompound.concept.conceptId":null,"objectMetaboliteCompound.concept.conceptName":null,"objectMetaboliteCompound.concept.domainId":null,"objectMetaboliteCompound.concept.vocabularyId":null,"objectMetaboliteCompound.concept.conceptClassId":null,"objectMetaboliteCompound.concept.standardConcept":null,"objectMetaboliteCompound.concept.conceptCode":null,"objectMetaboliteCompound.concept.validStartDate":null,"objectMetaboliteCompound.concept.validEndDate":null,"objectMetaboliteCompound.concept.invalid_reason":null,"enzymes.id":null,"enzymes.name":null,"enzymes.conceptId":null,"enzymes.experiment_enzyme_xref.enzymeId":null,"enzymes.experiment_enzyme_xref.experimentId":null,"transporters.id":null,"transporters.name":null,"transporters.conceptId":null,"transporters.experiment_transporter_xref.experimentId":null,"transporters.experiment_transporter_xref.transporterId":null,"quantifiedMetabolites.id":242,"quantifiedMetabolites.name":"glycycoumarin","quantifiedMetabolites.unii":null,"quantifiedMetabolites.inChIKey":"NZYSZZDSYIBYLC-UHFFFAOYSA-N","quantifiedMetabolites.publicDescription":null,"quantifiedMetabolites.internalComment":null,"quantifiedMetabolites.conceptId":null,"quantifiedMetabolites.enantiomerOfId":null,"quantifiedMetabolites.experiment_quantified_metabolite_xref.com":242,"quantifiedMetabolites.experiment_quantified_metabolite_xref.exp":776,"study.id":155,"study.uid":"NPDI-Lm3PvA","study.name":"Cytochrome P450 inhibition by licorice species Glycyrrhiza uralensis and fourteen licorice constituents","study.napdiIdentifier":null,"study.overallSummary":"

The potential of licorice dietary supplements to interact with drug metabolism was evaluated by testing extracts of botanically identified licorice species Glycyrrhiza uralensis and 14 isolated licorice compounds for inhibition of 9 cytochrome P450 enzymes using a UHPLC-MS/MS cocktail assay. G. uralensis strongly inhibited CYP2B6 and moderately inhibited CYP2C8, CYP2C9 and CYP2C19. The licorice compounds isoliquiritigenin, licoricidin, licochalcone A, 18β-glycyrrhetinic acid, and glycycoumarin inhibited one or more members of the CYP2C family of enzymes. Glycycoumarin and licochalcone A inhibited CYP1A2, but only glycycoumarin inhibited CYP2B6. Isoliquiritigenin, glabridin and licoricidin competitively inhibited CYP3A4. The licorice species commonly used in botanical dietary supplements have varying potential for drug-botanical interactions as inhibitors of cytochrome P450 isoforms. Each species of licorice displays a unique profile of constituents with potential for drug interactions.

","study.pubmedId":28774812,"study.embaseId":null,"study.croIdentifier":"UIC","study.croInformation":"UIC","study.dateStart":"2017-03-22T00:00:00.000Z","study.dateEnd":"2017-07-30T00:00:00.000Z","study.internalComment":null,"study.status":"published","study.compoundId":null,"study.naturalProductUid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProductSampleId":null,"study.studySourceTypeId":1,"study.naturalProduct.uid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProduct.binomial":"Glycyrrhiza uralensis","study.naturalProduct.name":"Licorice","study.naturalProduct.itis":null,"study.naturalProduct.srs":"dc6f848b-18bb-4620-81b1-b2af39721bd9","study.naturalProduct.source_id":"","study.naturalProduct.conceptId":null,"study.naturalProduct.concept.conceptId":null,"study.naturalProduct.concept.conceptName":null,"study.naturalProduct.concept.domainId":null,"study.naturalProduct.concept.vocabularyId":null,"study.naturalProduct.concept.conceptClassId":null,"study.naturalProduct.concept.standardConcept":null,"study.naturalProduct.concept.conceptCode":null,"study.naturalProduct.concept.validStartDate":null,"study.naturalProduct.concept.validEndDate":null,"study.naturalProduct.concept.invalid_reason":null,"study.compound.id":null,"study.compound.name":null,"study.compound.unii":null,"study.compound.inChIKey":null,"study.compound.publicDescription":null,"study.compound.internalComment":null,"study.compound.conceptId":null,"study.compound.enantiomerOfId":null,"study.studySourceType.id":1,"study.studySourceType.name":"Published report","testSystem.id":null,"testSystem.name":null,"testSystem.sortOrder":null,"testSystem.conceptId":null,"testSystem.categoryId":null,"testSystem.category.id":null,"testSystem.category.name":null,"testSystem.category.sortOrder":null,"testSystem.category.requiresCytochromeB5":null,"cytochromeB5.id":null,"cytochromeB5.name":null,"cytochromeB5.sortOrder":null,"cytochromeB5.conceptId":null,"controlDataExperiment.id":null,"controlDataExperiment.uid":null,"controlDataExperiment.name":null,"controlDataExperiment.overallEffect":null,"controlDataExperiment.isControlData":null,"controlDataExperiment.isIc50Shift":null,"controlDataExperiment.croCutoff":null,"controlDataExperiment.croIdentifier":null,"controlDataExperiment.comment":null,"controlDataExperiment.experimentalConditionsComment":null,"controlDataExperiment.resultsComment":null,"controlDataExperiment.internalComment":null,"controlDataExperiment.objectCompoundId":null,"controlDataExperiment.objectMetaboliteCompoundId":null,"controlDataExperiment.precipitantCompoundId":null,"controlDataExperiment.cytochromeB5Id":null,"controlDataExperiment.studyId":null,"controlDataExperiment.experimentTypeId":null,"controlDataExperiment.testSystemId":null,"controlDataExperiment.ic50ShiftExperimentId":null,"controlDataExperiment.controlDataExperimentId":null,"controlDataExperiment.controlDataForExperimentId":null,"controlDataExperiment.naturalProductSampleId":null,"controlDataExperiment.experimentType.id":null,"controlDataExperiment.experimentType.name":null,"controlDataExperiment.experimentType.isInVitro":null,"controlDataExperiment.experimentType.isTransporter":null,"controlDataExperiment.experimentType.isEnzyme":null,"controlDataExperiment.experimentType.purl":null,"controlDataExperiment.objectCompound.id":null,"controlDataExperiment.objectCompound.name":null,"controlDataExperiment.objectCompound.unii":null,"controlDataExperiment.objectCompound.inChIKey":null,"controlDataExperiment.objectCompound.publicDescription":null,"controlDataExperiment.objectCompound.internalComment":null,"controlDataExperiment.objectCompound.conceptId":null,"controlDataExperiment.objectCompound.enantiomerOfId":null,"controlDataExperiment.precipitantCompound.id":null,"controlDataExperiment.precipitantCompound.name":null,"controlDataExperiment.precipitantCompound.unii":null,"controlDataExperiment.precipitantCompound.inChIKey":null,"controlDataExperiment.precipitantCompound.publicDescription":null,"controlDataExperiment.precipitantCompound.internalComment":null,"controlDataExperiment.precipitantCompound.conceptId":null,"controlDataExperiment.precipitantCompound.enantiomerOfId":null,"controlDataExperiment.objectMetaboliteCompound.id":null,"controlDataExperiment.objectMetaboliteCompound.name":null,"controlDataExperiment.objectMetaboliteCompound.unii":null,"controlDataExperiment.objectMetaboliteCompound.inChIKey":null,"controlDataExperiment.objectMetaboliteCompound.publicDescriptio":null,"controlDataExperiment.objectMetaboliteCompound.internalComment":null,"controlDataExperiment.objectMetaboliteCompound.conceptId":null,"controlDataExperiment.objectMetaboliteCompound.enantiomerOfId":null,"controlDataExperiment.enzymes.id":null,"controlDataExperiment.enzymes.name":null,"controlDataExperiment.enzymes.conceptId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.enzymeId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.experiment":null,"controlDataExperiment.transporters.id":null,"controlDataExperiment.transporters.name":null,"controlDataExperiment.transporters.conceptId":null,"controlDataExperiment.transporters.experiment_transporter_xref.":null,"controlDataExperiment.quantifiedMetabolites.id":null,"controlDataExperiment.quantifiedMetabolites.name":null,"controlDataExperiment.quantifiedMetabolites.unii":null,"controlDataExperiment.quantifiedMetabolites.inChIKey":null,"controlDataExperiment.quantifiedMetabolites.publicDescription":null,"controlDataExperiment.quantifiedMetabolites.internalComment":null,"controlDataExperiment.quantifiedMetabolites.conceptId":null,"controlDataExperiment.quantifiedMetabolites.enantiomerOfId":null,"controlDataExperiment.quantifiedMetabolites.experiment_quantifi":null,"experimentAnswers.id":14139,"experimentAnswers.text":"UHPLC-MS/MS","experimentAnswers.answerId":null,"experimentAnswers.experimentId":776,"experimentAnswers.questionId":1113,"experimentAnswers.question.id":1113,"experimentAnswers.question.text":"Mass spectrometry instrument used","experimentAnswers.question.required":false,"experimentAnswers.question.maxAnswers":1,"experimentAnswers.question.type":"STRING","experimentAnswers.question.conceptId":null,"experimentAnswers.question.answers.id":null,"experimentAnswers.question.answers.text":null,"experimentAnswers.question.answers.sortOrder":null,"experimentAnswers.question.answers.conceptId":null,"experimentAnswers.question.answers.questionId":null,"experimentAnswers.answer.id":null,"experimentAnswers.answer.text":null,"experimentAnswers.answer.sortOrder":null,"experimentAnswers.answer.conceptId":null,"experimentAnswers.answer.questionId":null},{"id":776,"uid":"NPDI-ebe-GA","name":"Chemical characterization of Licorice, Glycyrrhiza uralensis","overallEffect":0,"isControlData":false,"isIc50Shift":false,"croCutoff":null,"croIdentifier":null,"comment":null,"experimentalConditionsComment":null,"resultsComment":"% weight compound/weight extract

glabridin, licochalcone a had quantities of 0 and were excluded from the results","internalComment":null,"objectCompoundId":null,"objectMetaboliteCompoundId":null,"precipitantCompoundId":null,"cytochromeB5Id":null,"studyId":155,"experimentTypeId":10,"testSystemId":null,"ic50ShiftExperimentId":null,"controlDataExperimentId":null,"controlDataForExperimentId":null,"naturalProductSampleId":null,"experimentType.id":10,"experimentType.name":"Characterization of Material","experimentType.isInVitro":false,"experimentType.isTransporter":false,"experimentType.isEnzyme":false,"experimentType.purl":"http://purl.obolibrary.org/obo/DIDEO_00005004","objectCompound.id":null,"objectCompound.name":null,"objectCompound.unii":null,"objectCompound.inChIKey":null,"objectCompound.publicDescription":null,"objectCompound.internalComment":null,"objectCompound.conceptId":null,"objectCompound.enantiomerOfId":null,"objectCompound.concept.conceptId":null,"objectCompound.concept.conceptName":null,"objectCompound.concept.domainId":null,"objectCompound.concept.vocabularyId":null,"objectCompound.concept.conceptClassId":null,"objectCompound.concept.standardConcept":null,"objectCompound.concept.conceptCode":null,"objectCompound.concept.validStartDate":null,"objectCompound.concept.validEndDate":null,"objectCompound.concept.invalid_reason":null,"precipitantCompound.id":null,"precipitantCompound.name":null,"precipitantCompound.unii":null,"precipitantCompound.inChIKey":null,"precipitantCompound.publicDescription":null,"precipitantCompound.internalComment":null,"precipitantCompound.conceptId":null,"precipitantCompound.enantiomerOfId":null,"precipitantCompound.concept.conceptId":null,"precipitantCompound.concept.conceptName":null,"precipitantCompound.concept.domainId":null,"precipitantCompound.concept.vocabularyId":null,"precipitantCompound.concept.conceptClassId":null,"precipitantCompound.concept.standardConcept":null,"precipitantCompound.concept.conceptCode":null,"precipitantCompound.concept.validStartDate":null,"precipitantCompound.concept.validEndDate":null,"precipitantCompound.concept.invalid_reason":null,"objectMetaboliteCompound.id":null,"objectMetaboliteCompound.name":null,"objectMetaboliteCompound.unii":null,"objectMetaboliteCompound.inChIKey":null,"objectMetaboliteCompound.publicDescription":null,"objectMetaboliteCompound.internalComment":null,"objectMetaboliteCompound.conceptId":null,"objectMetaboliteCompound.enantiomerOfId":null,"objectMetaboliteCompound.concept.conceptId":null,"objectMetaboliteCompound.concept.conceptName":null,"objectMetaboliteCompound.concept.domainId":null,"objectMetaboliteCompound.concept.vocabularyId":null,"objectMetaboliteCompound.concept.conceptClassId":null,"objectMetaboliteCompound.concept.standardConcept":null,"objectMetaboliteCompound.concept.conceptCode":null,"objectMetaboliteCompound.concept.validStartDate":null,"objectMetaboliteCompound.concept.validEndDate":null,"objectMetaboliteCompound.concept.invalid_reason":null,"enzymes.id":null,"enzymes.name":null,"enzymes.conceptId":null,"enzymes.experiment_enzyme_xref.enzymeId":null,"enzymes.experiment_enzyme_xref.experimentId":null,"transporters.id":null,"transporters.name":null,"transporters.conceptId":null,"transporters.experiment_transporter_xref.experimentId":null,"transporters.experiment_transporter_xref.transporterId":null,"quantifiedMetabolites.id":241,"quantifiedMetabolites.name":"p-hydroxy-benzylmalonic acid (hbma)","quantifiedMetabolites.unii":null,"quantifiedMetabolites.inChIKey":"JXJNPXPDKYRHJT-UHFFFAOYSA-N","quantifiedMetabolites.publicDescription":null,"quantifiedMetabolites.internalComment":null,"quantifiedMetabolites.conceptId":null,"quantifiedMetabolites.enantiomerOfId":null,"quantifiedMetabolites.experiment_quantified_metabolite_xref.com":241,"quantifiedMetabolites.experiment_quantified_metabolite_xref.exp":776,"study.id":155,"study.uid":"NPDI-Lm3PvA","study.name":"Cytochrome P450 inhibition by licorice species Glycyrrhiza uralensis and fourteen licorice constituents","study.napdiIdentifier":null,"study.overallSummary":"

The potential of licorice dietary supplements to interact with drug metabolism was evaluated by testing extracts of botanically identified licorice species Glycyrrhiza uralensis and 14 isolated licorice compounds for inhibition of 9 cytochrome P450 enzymes using a UHPLC-MS/MS cocktail assay. G. uralensis strongly inhibited CYP2B6 and moderately inhibited CYP2C8, CYP2C9 and CYP2C19. The licorice compounds isoliquiritigenin, licoricidin, licochalcone A, 18β-glycyrrhetinic acid, and glycycoumarin inhibited one or more members of the CYP2C family of enzymes. Glycycoumarin and licochalcone A inhibited CYP1A2, but only glycycoumarin inhibited CYP2B6. Isoliquiritigenin, glabridin and licoricidin competitively inhibited CYP3A4. The licorice species commonly used in botanical dietary supplements have varying potential for drug-botanical interactions as inhibitors of cytochrome P450 isoforms. Each species of licorice displays a unique profile of constituents with potential for drug interactions.

","study.pubmedId":28774812,"study.embaseId":null,"study.croIdentifier":"UIC","study.croInformation":"UIC","study.dateStart":"2017-03-22T00:00:00.000Z","study.dateEnd":"2017-07-30T00:00:00.000Z","study.internalComment":null,"study.status":"published","study.compoundId":null,"study.naturalProductUid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProductSampleId":null,"study.studySourceTypeId":1,"study.naturalProduct.uid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProduct.binomial":"Glycyrrhiza uralensis","study.naturalProduct.name":"Licorice","study.naturalProduct.itis":null,"study.naturalProduct.srs":"dc6f848b-18bb-4620-81b1-b2af39721bd9","study.naturalProduct.source_id":"","study.naturalProduct.conceptId":null,"study.naturalProduct.concept.conceptId":null,"study.naturalProduct.concept.conceptName":null,"study.naturalProduct.concept.domainId":null,"study.naturalProduct.concept.vocabularyId":null,"study.naturalProduct.concept.conceptClassId":null,"study.naturalProduct.concept.standardConcept":null,"study.naturalProduct.concept.conceptCode":null,"study.naturalProduct.concept.validStartDate":null,"study.naturalProduct.concept.validEndDate":null,"study.naturalProduct.concept.invalid_reason":null,"study.compound.id":null,"study.compound.name":null,"study.compound.unii":null,"study.compound.inChIKey":null,"study.compound.publicDescription":null,"study.compound.internalComment":null,"study.compound.conceptId":null,"study.compound.enantiomerOfId":null,"study.studySourceType.id":1,"study.studySourceType.name":"Published report","testSystem.id":null,"testSystem.name":null,"testSystem.sortOrder":null,"testSystem.conceptId":null,"testSystem.categoryId":null,"testSystem.category.id":null,"testSystem.category.name":null,"testSystem.category.sortOrder":null,"testSystem.category.requiresCytochromeB5":null,"cytochromeB5.id":null,"cytochromeB5.name":null,"cytochromeB5.sortOrder":null,"cytochromeB5.conceptId":null,"controlDataExperiment.id":null,"controlDataExperiment.uid":null,"controlDataExperiment.name":null,"controlDataExperiment.overallEffect":null,"controlDataExperiment.isControlData":null,"controlDataExperiment.isIc50Shift":null,"controlDataExperiment.croCutoff":null,"controlDataExperiment.croIdentifier":null,"controlDataExperiment.comment":null,"controlDataExperiment.experimentalConditionsComment":null,"controlDataExperiment.resultsComment":null,"controlDataExperiment.internalComment":null,"controlDataExperiment.objectCompoundId":null,"controlDataExperiment.objectMetaboliteCompoundId":null,"controlDataExperiment.precipitantCompoundId":null,"controlDataExperiment.cytochromeB5Id":null,"controlDataExperiment.studyId":null,"controlDataExperiment.experimentTypeId":null,"controlDataExperiment.testSystemId":null,"controlDataExperiment.ic50ShiftExperimentId":null,"controlDataExperiment.controlDataExperimentId":null,"controlDataExperiment.controlDataForExperimentId":null,"controlDataExperiment.naturalProductSampleId":null,"controlDataExperiment.experimentType.id":null,"controlDataExperiment.experimentType.name":null,"controlDataExperiment.experimentType.isInVitro":null,"controlDataExperiment.experimentType.isTransporter":null,"controlDataExperiment.experimentType.isEnzyme":null,"controlDataExperiment.experimentType.purl":null,"controlDataExperiment.objectCompound.id":null,"controlDataExperiment.objectCompound.name":null,"controlDataExperiment.objectCompound.unii":null,"controlDataExperiment.objectCompound.inChIKey":null,"controlDataExperiment.objectCompound.publicDescription":null,"controlDataExperiment.objectCompound.internalComment":null,"controlDataExperiment.objectCompound.conceptId":null,"controlDataExperiment.objectCompound.enantiomerOfId":null,"controlDataExperiment.precipitantCompound.id":null,"controlDataExperiment.precipitantCompound.name":null,"controlDataExperiment.precipitantCompound.unii":null,"controlDataExperiment.precipitantCompound.inChIKey":null,"controlDataExperiment.precipitantCompound.publicDescription":null,"controlDataExperiment.precipitantCompound.internalComment":null,"controlDataExperiment.precipitantCompound.conceptId":null,"controlDataExperiment.precipitantCompound.enantiomerOfId":null,"controlDataExperiment.objectMetaboliteCompound.id":null,"controlDataExperiment.objectMetaboliteCompound.name":null,"controlDataExperiment.objectMetaboliteCompound.unii":null,"controlDataExperiment.objectMetaboliteCompound.inChIKey":null,"controlDataExperiment.objectMetaboliteCompound.publicDescriptio":null,"controlDataExperiment.objectMetaboliteCompound.internalComment":null,"controlDataExperiment.objectMetaboliteCompound.conceptId":null,"controlDataExperiment.objectMetaboliteCompound.enantiomerOfId":null,"controlDataExperiment.enzymes.id":null,"controlDataExperiment.enzymes.name":null,"controlDataExperiment.enzymes.conceptId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.enzymeId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.experiment":null,"controlDataExperiment.transporters.id":null,"controlDataExperiment.transporters.name":null,"controlDataExperiment.transporters.conceptId":null,"controlDataExperiment.transporters.experiment_transporter_xref.":null,"controlDataExperiment.quantifiedMetabolites.id":null,"controlDataExperiment.quantifiedMetabolites.name":null,"controlDataExperiment.quantifiedMetabolites.unii":null,"controlDataExperiment.quantifiedMetabolites.inChIKey":null,"controlDataExperiment.quantifiedMetabolites.publicDescription":null,"controlDataExperiment.quantifiedMetabolites.internalComment":null,"controlDataExperiment.quantifiedMetabolites.conceptId":null,"controlDataExperiment.quantifiedMetabolites.enantiomerOfId":null,"controlDataExperiment.quantifiedMetabolites.experiment_quantifi":null,"experimentAnswers.id":14137,"experimentAnswers.text":"ethanol, isopropanol, water (90:5:5, v/v/v)","experimentAnswers.answerId":null,"experimentAnswers.experimentId":776,"experimentAnswers.questionId":1104,"experimentAnswers.question.id":1104,"experimentAnswers.question.text":"Solvent used","experimentAnswers.question.required":false,"experimentAnswers.question.maxAnswers":1,"experimentAnswers.question.type":"STRING","experimentAnswers.question.conceptId":null,"experimentAnswers.question.answers.id":null,"experimentAnswers.question.answers.text":null,"experimentAnswers.question.answers.sortOrder":null,"experimentAnswers.question.answers.conceptId":null,"experimentAnswers.question.answers.questionId":null,"experimentAnswers.answer.id":null,"experimentAnswers.answer.text":null,"experimentAnswers.answer.sortOrder":null,"experimentAnswers.answer.conceptId":null,"experimentAnswers.answer.questionId":null},{"id":776,"uid":"NPDI-ebe-GA","name":"Chemical characterization of Licorice, Glycyrrhiza uralensis","overallEffect":0,"isControlData":false,"isIc50Shift":false,"croCutoff":null,"croIdentifier":null,"comment":null,"experimentalConditionsComment":null,"resultsComment":"% weight compound/weight extract

glabridin, licochalcone a had quantities of 0 and were excluded from the results","internalComment":null,"objectCompoundId":null,"objectMetaboliteCompoundId":null,"precipitantCompoundId":null,"cytochromeB5Id":null,"studyId":155,"experimentTypeId":10,"testSystemId":null,"ic50ShiftExperimentId":null,"controlDataExperimentId":null,"controlDataForExperimentId":null,"naturalProductSampleId":null,"experimentType.id":10,"experimentType.name":"Characterization of Material","experimentType.isInVitro":false,"experimentType.isTransporter":false,"experimentType.isEnzyme":false,"experimentType.purl":"http://purl.obolibrary.org/obo/DIDEO_00005004","objectCompound.id":null,"objectCompound.name":null,"objectCompound.unii":null,"objectCompound.inChIKey":null,"objectCompound.publicDescription":null,"objectCompound.internalComment":null,"objectCompound.conceptId":null,"objectCompound.enantiomerOfId":null,"objectCompound.concept.conceptId":null,"objectCompound.concept.conceptName":null,"objectCompound.concept.domainId":null,"objectCompound.concept.vocabularyId":null,"objectCompound.concept.conceptClassId":null,"objectCompound.concept.standardConcept":null,"objectCompound.concept.conceptCode":null,"objectCompound.concept.validStartDate":null,"objectCompound.concept.validEndDate":null,"objectCompound.concept.invalid_reason":null,"precipitantCompound.id":null,"precipitantCompound.name":null,"precipitantCompound.unii":null,"precipitantCompound.inChIKey":null,"precipitantCompound.publicDescription":null,"precipitantCompound.internalComment":null,"precipitantCompound.conceptId":null,"precipitantCompound.enantiomerOfId":null,"precipitantCompound.concept.conceptId":null,"precipitantCompound.concept.conceptName":null,"precipitantCompound.concept.domainId":null,"precipitantCompound.concept.vocabularyId":null,"precipitantCompound.concept.conceptClassId":null,"precipitantCompound.concept.standardConcept":null,"precipitantCompound.concept.conceptCode":null,"precipitantCompound.concept.validStartDate":null,"precipitantCompound.concept.validEndDate":null,"precipitantCompound.concept.invalid_reason":null,"objectMetaboliteCompound.id":null,"objectMetaboliteCompound.name":null,"objectMetaboliteCompound.unii":null,"objectMetaboliteCompound.inChIKey":null,"objectMetaboliteCompound.publicDescription":null,"objectMetaboliteCompound.internalComment":null,"objectMetaboliteCompound.conceptId":null,"objectMetaboliteCompound.enantiomerOfId":null,"objectMetaboliteCompound.concept.conceptId":null,"objectMetaboliteCompound.concept.conceptName":null,"objectMetaboliteCompound.concept.domainId":null,"objectMetaboliteCompound.concept.vocabularyId":null,"objectMetaboliteCompound.concept.conceptClassId":null,"objectMetaboliteCompound.concept.standardConcept":null,"objectMetaboliteCompound.concept.conceptCode":null,"objectMetaboliteCompound.concept.validStartDate":null,"objectMetaboliteCompound.concept.validEndDate":null,"objectMetaboliteCompound.concept.invalid_reason":null,"enzymes.id":null,"enzymes.name":null,"enzymes.conceptId":null,"enzymes.experiment_enzyme_xref.enzymeId":null,"enzymes.experiment_enzyme_xref.experimentId":null,"transporters.id":null,"transporters.name":null,"transporters.conceptId":null,"transporters.experiment_transporter_xref.experimentId":null,"transporters.experiment_transporter_xref.transporterId":null,"quantifiedMetabolites.id":241,"quantifiedMetabolites.name":"p-hydroxy-benzylmalonic acid (hbma)","quantifiedMetabolites.unii":null,"quantifiedMetabolites.inChIKey":"JXJNPXPDKYRHJT-UHFFFAOYSA-N","quantifiedMetabolites.publicDescription":null,"quantifiedMetabolites.internalComment":null,"quantifiedMetabolites.conceptId":null,"quantifiedMetabolites.enantiomerOfId":null,"quantifiedMetabolites.experiment_quantified_metabolite_xref.com":241,"quantifiedMetabolites.experiment_quantified_metabolite_xref.exp":776,"study.id":155,"study.uid":"NPDI-Lm3PvA","study.name":"Cytochrome P450 inhibition by licorice species Glycyrrhiza uralensis and fourteen licorice constituents","study.napdiIdentifier":null,"study.overallSummary":"

The potential of licorice dietary supplements to interact with drug metabolism was evaluated by testing extracts of botanically identified licorice species Glycyrrhiza uralensis and 14 isolated licorice compounds for inhibition of 9 cytochrome P450 enzymes using a UHPLC-MS/MS cocktail assay. G. uralensis strongly inhibited CYP2B6 and moderately inhibited CYP2C8, CYP2C9 and CYP2C19. The licorice compounds isoliquiritigenin, licoricidin, licochalcone A, 18β-glycyrrhetinic acid, and glycycoumarin inhibited one or more members of the CYP2C family of enzymes. Glycycoumarin and licochalcone A inhibited CYP1A2, but only glycycoumarin inhibited CYP2B6. Isoliquiritigenin, glabridin and licoricidin competitively inhibited CYP3A4. The licorice species commonly used in botanical dietary supplements have varying potential for drug-botanical interactions as inhibitors of cytochrome P450 isoforms. Each species of licorice displays a unique profile of constituents with potential for drug interactions.

","study.pubmedId":28774812,"study.embaseId":null,"study.croIdentifier":"UIC","study.croInformation":"UIC","study.dateStart":"2017-03-22T00:00:00.000Z","study.dateEnd":"2017-07-30T00:00:00.000Z","study.internalComment":null,"study.status":"published","study.compoundId":null,"study.naturalProductUid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProductSampleId":null,"study.studySourceTypeId":1,"study.naturalProduct.uid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProduct.binomial":"Glycyrrhiza uralensis","study.naturalProduct.name":"Licorice","study.naturalProduct.itis":null,"study.naturalProduct.srs":"dc6f848b-18bb-4620-81b1-b2af39721bd9","study.naturalProduct.source_id":"","study.naturalProduct.conceptId":null,"study.naturalProduct.concept.conceptId":null,"study.naturalProduct.concept.conceptName":null,"study.naturalProduct.concept.domainId":null,"study.naturalProduct.concept.vocabularyId":null,"study.naturalProduct.concept.conceptClassId":null,"study.naturalProduct.concept.standardConcept":null,"study.naturalProduct.concept.conceptCode":null,"study.naturalProduct.concept.validStartDate":null,"study.naturalProduct.concept.validEndDate":null,"study.naturalProduct.concept.invalid_reason":null,"study.compound.id":null,"study.compound.name":null,"study.compound.unii":null,"study.compound.inChIKey":null,"study.compound.publicDescription":null,"study.compound.internalComment":null,"study.compound.conceptId":null,"study.compound.enantiomerOfId":null,"study.studySourceType.id":1,"study.studySourceType.name":"Published report","testSystem.id":null,"testSystem.name":null,"testSystem.sortOrder":null,"testSystem.conceptId":null,"testSystem.categoryId":null,"testSystem.category.id":null,"testSystem.category.name":null,"testSystem.category.sortOrder":null,"testSystem.category.requiresCytochromeB5":null,"cytochromeB5.id":null,"cytochromeB5.name":null,"cytochromeB5.sortOrder":null,"cytochromeB5.conceptId":null,"controlDataExperiment.id":null,"controlDataExperiment.uid":null,"controlDataExperiment.name":null,"controlDataExperiment.overallEffect":null,"controlDataExperiment.isControlData":null,"controlDataExperiment.isIc50Shift":null,"controlDataExperiment.croCutoff":null,"controlDataExperiment.croIdentifier":null,"controlDataExperiment.comment":null,"controlDataExperiment.experimentalConditionsComment":null,"controlDataExperiment.resultsComment":null,"controlDataExperiment.internalComment":null,"controlDataExperiment.objectCompoundId":null,"controlDataExperiment.objectMetaboliteCompoundId":null,"controlDataExperiment.precipitantCompoundId":null,"controlDataExperiment.cytochromeB5Id":null,"controlDataExperiment.studyId":null,"controlDataExperiment.experimentTypeId":null,"controlDataExperiment.testSystemId":null,"controlDataExperiment.ic50ShiftExperimentId":null,"controlDataExperiment.controlDataExperimentId":null,"controlDataExperiment.controlDataForExperimentId":null,"controlDataExperiment.naturalProductSampleId":null,"controlDataExperiment.experimentType.id":null,"controlDataExperiment.experimentType.name":null,"controlDataExperiment.experimentType.isInVitro":null,"controlDataExperiment.experimentType.isTransporter":null,"controlDataExperiment.experimentType.isEnzyme":null,"controlDataExperiment.experimentType.purl":null,"controlDataExperiment.objectCompound.id":null,"controlDataExperiment.objectCompound.name":null,"controlDataExperiment.objectCompound.unii":null,"controlDataExperiment.objectCompound.inChIKey":null,"controlDataExperiment.objectCompound.publicDescription":null,"controlDataExperiment.objectCompound.internalComment":null,"controlDataExperiment.objectCompound.conceptId":null,"controlDataExperiment.objectCompound.enantiomerOfId":null,"controlDataExperiment.precipitantCompound.id":null,"controlDataExperiment.precipitantCompound.name":null,"controlDataExperiment.precipitantCompound.unii":null,"controlDataExperiment.precipitantCompound.inChIKey":null,"controlDataExperiment.precipitantCompound.publicDescription":null,"controlDataExperiment.precipitantCompound.internalComment":null,"controlDataExperiment.precipitantCompound.conceptId":null,"controlDataExperiment.precipitantCompound.enantiomerOfId":null,"controlDataExperiment.objectMetaboliteCompound.id":null,"controlDataExperiment.objectMetaboliteCompound.name":null,"controlDataExperiment.objectMetaboliteCompound.unii":null,"controlDataExperiment.objectMetaboliteCompound.inChIKey":null,"controlDataExperiment.objectMetaboliteCompound.publicDescriptio":null,"controlDataExperiment.objectMetaboliteCompound.internalComment":null,"controlDataExperiment.objectMetaboliteCompound.conceptId":null,"controlDataExperiment.objectMetaboliteCompound.enantiomerOfId":null,"controlDataExperiment.enzymes.id":null,"controlDataExperiment.enzymes.name":null,"controlDataExperiment.enzymes.conceptId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.enzymeId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.experiment":null,"controlDataExperiment.transporters.id":null,"controlDataExperiment.transporters.name":null,"controlDataExperiment.transporters.conceptId":null,"controlDataExperiment.transporters.experiment_transporter_xref.":null,"controlDataExperiment.quantifiedMetabolites.id":null,"controlDataExperiment.quantifiedMetabolites.name":null,"controlDataExperiment.quantifiedMetabolites.unii":null,"controlDataExperiment.quantifiedMetabolites.inChIKey":null,"controlDataExperiment.quantifiedMetabolites.publicDescription":null,"controlDataExperiment.quantifiedMetabolites.internalComment":null,"controlDataExperiment.quantifiedMetabolites.conceptId":null,"controlDataExperiment.quantifiedMetabolites.enantiomerOfId":null,"controlDataExperiment.quantifiedMetabolites.experiment_quantifi":null,"experimentAnswers.id":14138,"experimentAnswers.text":"species checked with DNA barcoding, and comparison with voucher specimens at the Field Museum of Natural History, Chicago.","experimentAnswers.answerId":null,"experimentAnswers.experimentId":776,"experimentAnswers.questionId":1106,"experimentAnswers.question.id":1106,"experimentAnswers.question.text":"Material preparation additional information","experimentAnswers.question.required":false,"experimentAnswers.question.maxAnswers":1,"experimentAnswers.question.type":"TEXT","experimentAnswers.question.conceptId":null,"experimentAnswers.question.answers.id":null,"experimentAnswers.question.answers.text":null,"experimentAnswers.question.answers.sortOrder":null,"experimentAnswers.question.answers.conceptId":null,"experimentAnswers.question.answers.questionId":null,"experimentAnswers.answer.id":null,"experimentAnswers.answer.text":null,"experimentAnswers.answer.sortOrder":null,"experimentAnswers.answer.conceptId":null,"experimentAnswers.answer.questionId":null},{"id":776,"uid":"NPDI-ebe-GA","name":"Chemical characterization of Licorice, Glycyrrhiza uralensis","overallEffect":0,"isControlData":false,"isIc50Shift":false,"croCutoff":null,"croIdentifier":null,"comment":null,"experimentalConditionsComment":null,"resultsComment":"% weight compound/weight extract

glabridin, licochalcone a had quantities of 0 and were excluded from the results","internalComment":null,"objectCompoundId":null,"objectMetaboliteCompoundId":null,"precipitantCompoundId":null,"cytochromeB5Id":null,"studyId":155,"experimentTypeId":10,"testSystemId":null,"ic50ShiftExperimentId":null,"controlDataExperimentId":null,"controlDataForExperimentId":null,"naturalProductSampleId":null,"experimentType.id":10,"experimentType.name":"Characterization of Material","experimentType.isInVitro":false,"experimentType.isTransporter":false,"experimentType.isEnzyme":false,"experimentType.purl":"http://purl.obolibrary.org/obo/DIDEO_00005004","objectCompound.id":null,"objectCompound.name":null,"objectCompound.unii":null,"objectCompound.inChIKey":null,"objectCompound.publicDescription":null,"objectCompound.internalComment":null,"objectCompound.conceptId":null,"objectCompound.enantiomerOfId":null,"objectCompound.concept.conceptId":null,"objectCompound.concept.conceptName":null,"objectCompound.concept.domainId":null,"objectCompound.concept.vocabularyId":null,"objectCompound.concept.conceptClassId":null,"objectCompound.concept.standardConcept":null,"objectCompound.concept.conceptCode":null,"objectCompound.concept.validStartDate":null,"objectCompound.concept.validEndDate":null,"objectCompound.concept.invalid_reason":null,"precipitantCompound.id":null,"precipitantCompound.name":null,"precipitantCompound.unii":null,"precipitantCompound.inChIKey":null,"precipitantCompound.publicDescription":null,"precipitantCompound.internalComment":null,"precipitantCompound.conceptId":null,"precipitantCompound.enantiomerOfId":null,"precipitantCompound.concept.conceptId":null,"precipitantCompound.concept.conceptName":null,"precipitantCompound.concept.domainId":null,"precipitantCompound.concept.vocabularyId":null,"precipitantCompound.concept.conceptClassId":null,"precipitantCompound.concept.standardConcept":null,"precipitantCompound.concept.conceptCode":null,"precipitantCompound.concept.validStartDate":null,"precipitantCompound.concept.validEndDate":null,"precipitantCompound.concept.invalid_reason":null,"objectMetaboliteCompound.id":null,"objectMetaboliteCompound.name":null,"objectMetaboliteCompound.unii":null,"objectMetaboliteCompound.inChIKey":null,"objectMetaboliteCompound.publicDescription":null,"objectMetaboliteCompound.internalComment":null,"objectMetaboliteCompound.conceptId":null,"objectMetaboliteCompound.enantiomerOfId":null,"objectMetaboliteCompound.concept.conceptId":null,"objectMetaboliteCompound.concept.conceptName":null,"objectMetaboliteCompound.concept.domainId":null,"objectMetaboliteCompound.concept.vocabularyId":null,"objectMetaboliteCompound.concept.conceptClassId":null,"objectMetaboliteCompound.concept.standardConcept":null,"objectMetaboliteCompound.concept.conceptCode":null,"objectMetaboliteCompound.concept.validStartDate":null,"objectMetaboliteCompound.concept.validEndDate":null,"objectMetaboliteCompound.concept.invalid_reason":null,"enzymes.id":null,"enzymes.name":null,"enzymes.conceptId":null,"enzymes.experiment_enzyme_xref.enzymeId":null,"enzymes.experiment_enzyme_xref.experimentId":null,"transporters.id":null,"transporters.name":null,"transporters.conceptId":null,"transporters.experiment_transporter_xref.experimentId":null,"transporters.experiment_transporter_xref.transporterId":null,"quantifiedMetabolites.id":241,"quantifiedMetabolites.name":"p-hydroxy-benzylmalonic acid (hbma)","quantifiedMetabolites.unii":null,"quantifiedMetabolites.inChIKey":"JXJNPXPDKYRHJT-UHFFFAOYSA-N","quantifiedMetabolites.publicDescription":null,"quantifiedMetabolites.internalComment":null,"quantifiedMetabolites.conceptId":null,"quantifiedMetabolites.enantiomerOfId":null,"quantifiedMetabolites.experiment_quantified_metabolite_xref.com":241,"quantifiedMetabolites.experiment_quantified_metabolite_xref.exp":776,"study.id":155,"study.uid":"NPDI-Lm3PvA","study.name":"Cytochrome P450 inhibition by licorice species Glycyrrhiza uralensis and fourteen licorice constituents","study.napdiIdentifier":null,"study.overallSummary":"

The potential of licorice dietary supplements to interact with drug metabolism was evaluated by testing extracts of botanically identified licorice species Glycyrrhiza uralensis and 14 isolated licorice compounds for inhibition of 9 cytochrome P450 enzymes using a UHPLC-MS/MS cocktail assay. G. uralensis strongly inhibited CYP2B6 and moderately inhibited CYP2C8, CYP2C9 and CYP2C19. The licorice compounds isoliquiritigenin, licoricidin, licochalcone A, 18β-glycyrrhetinic acid, and glycycoumarin inhibited one or more members of the CYP2C family of enzymes. Glycycoumarin and licochalcone A inhibited CYP1A2, but only glycycoumarin inhibited CYP2B6. Isoliquiritigenin, glabridin and licoricidin competitively inhibited CYP3A4. The licorice species commonly used in botanical dietary supplements have varying potential for drug-botanical interactions as inhibitors of cytochrome P450 isoforms. Each species of licorice displays a unique profile of constituents with potential for drug interactions.

","study.pubmedId":28774812,"study.embaseId":null,"study.croIdentifier":"UIC","study.croInformation":"UIC","study.dateStart":"2017-03-22T00:00:00.000Z","study.dateEnd":"2017-07-30T00:00:00.000Z","study.internalComment":null,"study.status":"published","study.compoundId":null,"study.naturalProductUid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProductSampleId":null,"study.studySourceTypeId":1,"study.naturalProduct.uid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProduct.binomial":"Glycyrrhiza uralensis","study.naturalProduct.name":"Licorice","study.naturalProduct.itis":null,"study.naturalProduct.srs":"dc6f848b-18bb-4620-81b1-b2af39721bd9","study.naturalProduct.source_id":"","study.naturalProduct.conceptId":null,"study.naturalProduct.concept.conceptId":null,"study.naturalProduct.concept.conceptName":null,"study.naturalProduct.concept.domainId":null,"study.naturalProduct.concept.vocabularyId":null,"study.naturalProduct.concept.conceptClassId":null,"study.naturalProduct.concept.standardConcept":null,"study.naturalProduct.concept.conceptCode":null,"study.naturalProduct.concept.validStartDate":null,"study.naturalProduct.concept.validEndDate":null,"study.naturalProduct.concept.invalid_reason":null,"study.compound.id":null,"study.compound.name":null,"study.compound.unii":null,"study.compound.inChIKey":null,"study.compound.publicDescription":null,"study.compound.internalComment":null,"study.compound.conceptId":null,"study.compound.enantiomerOfId":null,"study.studySourceType.id":1,"study.studySourceType.name":"Published report","testSystem.id":null,"testSystem.name":null,"testSystem.sortOrder":null,"testSystem.conceptId":null,"testSystem.categoryId":null,"testSystem.category.id":null,"testSystem.category.name":null,"testSystem.category.sortOrder":null,"testSystem.category.requiresCytochromeB5":null,"cytochromeB5.id":null,"cytochromeB5.name":null,"cytochromeB5.sortOrder":null,"cytochromeB5.conceptId":null,"controlDataExperiment.id":null,"controlDataExperiment.uid":null,"controlDataExperiment.name":null,"controlDataExperiment.overallEffect":null,"controlDataExperiment.isControlData":null,"controlDataExperiment.isIc50Shift":null,"controlDataExperiment.croCutoff":null,"controlDataExperiment.croIdentifier":null,"controlDataExperiment.comment":null,"controlDataExperiment.experimentalConditionsComment":null,"controlDataExperiment.resultsComment":null,"controlDataExperiment.internalComment":null,"controlDataExperiment.objectCompoundId":null,"controlDataExperiment.objectMetaboliteCompoundId":null,"controlDataExperiment.precipitantCompoundId":null,"controlDataExperiment.cytochromeB5Id":null,"controlDataExperiment.studyId":null,"controlDataExperiment.experimentTypeId":null,"controlDataExperiment.testSystemId":null,"controlDataExperiment.ic50ShiftExperimentId":null,"controlDataExperiment.controlDataExperimentId":null,"controlDataExperiment.controlDataForExperimentId":null,"controlDataExperiment.naturalProductSampleId":null,"controlDataExperiment.experimentType.id":null,"controlDataExperiment.experimentType.name":null,"controlDataExperiment.experimentType.isInVitro":null,"controlDataExperiment.experimentType.isTransporter":null,"controlDataExperiment.experimentType.isEnzyme":null,"controlDataExperiment.experimentType.purl":null,"controlDataExperiment.objectCompound.id":null,"controlDataExperiment.objectCompound.name":null,"controlDataExperiment.objectCompound.unii":null,"controlDataExperiment.objectCompound.inChIKey":null,"controlDataExperiment.objectCompound.publicDescription":null,"controlDataExperiment.objectCompound.internalComment":null,"controlDataExperiment.objectCompound.conceptId":null,"controlDataExperiment.objectCompound.enantiomerOfId":null,"controlDataExperiment.precipitantCompound.id":null,"controlDataExperiment.precipitantCompound.name":null,"controlDataExperiment.precipitantCompound.unii":null,"controlDataExperiment.precipitantCompound.inChIKey":null,"controlDataExperiment.precipitantCompound.publicDescription":null,"controlDataExperiment.precipitantCompound.internalComment":null,"controlDataExperiment.precipitantCompound.conceptId":null,"controlDataExperiment.precipitantCompound.enantiomerOfId":null,"controlDataExperiment.objectMetaboliteCompound.id":null,"controlDataExperiment.objectMetaboliteCompound.name":null,"controlDataExperiment.objectMetaboliteCompound.unii":null,"controlDataExperiment.objectMetaboliteCompound.inChIKey":null,"controlDataExperiment.objectMetaboliteCompound.publicDescriptio":null,"controlDataExperiment.objectMetaboliteCompound.internalComment":null,"controlDataExperiment.objectMetaboliteCompound.conceptId":null,"controlDataExperiment.objectMetaboliteCompound.enantiomerOfId":null,"controlDataExperiment.enzymes.id":null,"controlDataExperiment.enzymes.name":null,"controlDataExperiment.enzymes.conceptId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.enzymeId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.experiment":null,"controlDataExperiment.transporters.id":null,"controlDataExperiment.transporters.name":null,"controlDataExperiment.transporters.conceptId":null,"controlDataExperiment.transporters.experiment_transporter_xref.":null,"controlDataExperiment.quantifiedMetabolites.id":null,"controlDataExperiment.quantifiedMetabolites.name":null,"controlDataExperiment.quantifiedMetabolites.unii":null,"controlDataExperiment.quantifiedMetabolites.inChIKey":null,"controlDataExperiment.quantifiedMetabolites.publicDescription":null,"controlDataExperiment.quantifiedMetabolites.internalComment":null,"controlDataExperiment.quantifiedMetabolites.conceptId":null,"controlDataExperiment.quantifiedMetabolites.enantiomerOfId":null,"controlDataExperiment.quantifiedMetabolites.experiment_quantifi":null,"experimentAnswers.id":14139,"experimentAnswers.text":"UHPLC-MS/MS","experimentAnswers.answerId":null,"experimentAnswers.experimentId":776,"experimentAnswers.questionId":1113,"experimentAnswers.question.id":1113,"experimentAnswers.question.text":"Mass spectrometry instrument used","experimentAnswers.question.required":false,"experimentAnswers.question.maxAnswers":1,"experimentAnswers.question.type":"STRING","experimentAnswers.question.conceptId":null,"experimentAnswers.question.answers.id":null,"experimentAnswers.question.answers.text":null,"experimentAnswers.question.answers.sortOrder":null,"experimentAnswers.question.answers.conceptId":null,"experimentAnswers.question.answers.questionId":null,"experimentAnswers.answer.id":null,"experimentAnswers.answer.text":null,"experimentAnswers.answer.sortOrder":null,"experimentAnswers.answer.conceptId":null,"experimentAnswers.answer.questionId":null},{"id":776,"uid":"NPDI-ebe-GA","name":"Chemical characterization of Licorice, Glycyrrhiza uralensis","overallEffect":0,"isControlData":false,"isIc50Shift":false,"croCutoff":null,"croIdentifier":null,"comment":null,"experimentalConditionsComment":null,"resultsComment":"% weight compound/weight extract

glabridin, licochalcone a had quantities of 0 and were excluded from the results","internalComment":null,"objectCompoundId":null,"objectMetaboliteCompoundId":null,"precipitantCompoundId":null,"cytochromeB5Id":null,"studyId":155,"experimentTypeId":10,"testSystemId":null,"ic50ShiftExperimentId":null,"controlDataExperimentId":null,"controlDataForExperimentId":null,"naturalProductSampleId":null,"experimentType.id":10,"experimentType.name":"Characterization of Material","experimentType.isInVitro":false,"experimentType.isTransporter":false,"experimentType.isEnzyme":false,"experimentType.purl":"http://purl.obolibrary.org/obo/DIDEO_00005004","objectCompound.id":null,"objectCompound.name":null,"objectCompound.unii":null,"objectCompound.inChIKey":null,"objectCompound.publicDescription":null,"objectCompound.internalComment":null,"objectCompound.conceptId":null,"objectCompound.enantiomerOfId":null,"objectCompound.concept.conceptId":null,"objectCompound.concept.conceptName":null,"objectCompound.concept.domainId":null,"objectCompound.concept.vocabularyId":null,"objectCompound.concept.conceptClassId":null,"objectCompound.concept.standardConcept":null,"objectCompound.concept.conceptCode":null,"objectCompound.concept.validStartDate":null,"objectCompound.concept.validEndDate":null,"objectCompound.concept.invalid_reason":null,"precipitantCompound.id":null,"precipitantCompound.name":null,"precipitantCompound.unii":null,"precipitantCompound.inChIKey":null,"precipitantCompound.publicDescription":null,"precipitantCompound.internalComment":null,"precipitantCompound.conceptId":null,"precipitantCompound.enantiomerOfId":null,"precipitantCompound.concept.conceptId":null,"precipitantCompound.concept.conceptName":null,"precipitantCompound.concept.domainId":null,"precipitantCompound.concept.vocabularyId":null,"precipitantCompound.concept.conceptClassId":null,"precipitantCompound.concept.standardConcept":null,"precipitantCompound.concept.conceptCode":null,"precipitantCompound.concept.validStartDate":null,"precipitantCompound.concept.validEndDate":null,"precipitantCompound.concept.invalid_reason":null,"objectMetaboliteCompound.id":null,"objectMetaboliteCompound.name":null,"objectMetaboliteCompound.unii":null,"objectMetaboliteCompound.inChIKey":null,"objectMetaboliteCompound.publicDescription":null,"objectMetaboliteCompound.internalComment":null,"objectMetaboliteCompound.conceptId":null,"objectMetaboliteCompound.enantiomerOfId":null,"objectMetaboliteCompound.concept.conceptId":null,"objectMetaboliteCompound.concept.conceptName":null,"objectMetaboliteCompound.concept.domainId":null,"objectMetaboliteCompound.concept.vocabularyId":null,"objectMetaboliteCompound.concept.conceptClassId":null,"objectMetaboliteCompound.concept.standardConcept":null,"objectMetaboliteCompound.concept.conceptCode":null,"objectMetaboliteCompound.concept.validStartDate":null,"objectMetaboliteCompound.concept.validEndDate":null,"objectMetaboliteCompound.concept.invalid_reason":null,"enzymes.id":null,"enzymes.name":null,"enzymes.conceptId":null,"enzymes.experiment_enzyme_xref.enzymeId":null,"enzymes.experiment_enzyme_xref.experimentId":null,"transporters.id":null,"transporters.name":null,"transporters.conceptId":null,"transporters.experiment_transporter_xref.experimentId":null,"transporters.experiment_transporter_xref.transporterId":null,"quantifiedMetabolites.id":240,"quantifiedMetabolites.name":"licoricidin","quantifiedMetabolites.unii":null,"quantifiedMetabolites.inChIKey":"GBRZTUJCDFSIHM-KRWDZBQOSA-N","quantifiedMetabolites.publicDescription":null,"quantifiedMetabolites.internalComment":null,"quantifiedMetabolites.conceptId":null,"quantifiedMetabolites.enantiomerOfId":null,"quantifiedMetabolites.experiment_quantified_metabolite_xref.com":240,"quantifiedMetabolites.experiment_quantified_metabolite_xref.exp":776,"study.id":155,"study.uid":"NPDI-Lm3PvA","study.name":"Cytochrome P450 inhibition by licorice species Glycyrrhiza uralensis and fourteen licorice constituents","study.napdiIdentifier":null,"study.overallSummary":"

The potential of licorice dietary supplements to interact with drug metabolism was evaluated by testing extracts of botanically identified licorice species Glycyrrhiza uralensis and 14 isolated licorice compounds for inhibition of 9 cytochrome P450 enzymes using a UHPLC-MS/MS cocktail assay. G. uralensis strongly inhibited CYP2B6 and moderately inhibited CYP2C8, CYP2C9 and CYP2C19. The licorice compounds isoliquiritigenin, licoricidin, licochalcone A, 18β-glycyrrhetinic acid, and glycycoumarin inhibited one or more members of the CYP2C family of enzymes. Glycycoumarin and licochalcone A inhibited CYP1A2, but only glycycoumarin inhibited CYP2B6. Isoliquiritigenin, glabridin and licoricidin competitively inhibited CYP3A4. The licorice species commonly used in botanical dietary supplements have varying potential for drug-botanical interactions as inhibitors of cytochrome P450 isoforms. Each species of licorice displays a unique profile of constituents with potential for drug interactions.

","study.pubmedId":28774812,"study.embaseId":null,"study.croIdentifier":"UIC","study.croInformation":"UIC","study.dateStart":"2017-03-22T00:00:00.000Z","study.dateEnd":"2017-07-30T00:00:00.000Z","study.internalComment":null,"study.status":"published","study.compoundId":null,"study.naturalProductUid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProductSampleId":null,"study.studySourceTypeId":1,"study.naturalProduct.uid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProduct.binomial":"Glycyrrhiza uralensis","study.naturalProduct.name":"Licorice","study.naturalProduct.itis":null,"study.naturalProduct.srs":"dc6f848b-18bb-4620-81b1-b2af39721bd9","study.naturalProduct.source_id":"","study.naturalProduct.conceptId":null,"study.naturalProduct.concept.conceptId":null,"study.naturalProduct.concept.conceptName":null,"study.naturalProduct.concept.domainId":null,"study.naturalProduct.concept.vocabularyId":null,"study.naturalProduct.concept.conceptClassId":null,"study.naturalProduct.concept.standardConcept":null,"study.naturalProduct.concept.conceptCode":null,"study.naturalProduct.concept.validStartDate":null,"study.naturalProduct.concept.validEndDate":null,"study.naturalProduct.concept.invalid_reason":null,"study.compound.id":null,"study.compound.name":null,"study.compound.unii":null,"study.compound.inChIKey":null,"study.compound.publicDescription":null,"study.compound.internalComment":null,"study.compound.conceptId":null,"study.compound.enantiomerOfId":null,"study.studySourceType.id":1,"study.studySourceType.name":"Published report","testSystem.id":null,"testSystem.name":null,"testSystem.sortOrder":null,"testSystem.conceptId":null,"testSystem.categoryId":null,"testSystem.category.id":null,"testSystem.category.name":null,"testSystem.category.sortOrder":null,"testSystem.category.requiresCytochromeB5":null,"cytochromeB5.id":null,"cytochromeB5.name":null,"cytochromeB5.sortOrder":null,"cytochromeB5.conceptId":null,"controlDataExperiment.id":null,"controlDataExperiment.uid":null,"controlDataExperiment.name":null,"controlDataExperiment.overallEffect":null,"controlDataExperiment.isControlData":null,"controlDataExperiment.isIc50Shift":null,"controlDataExperiment.croCutoff":null,"controlDataExperiment.croIdentifier":null,"controlDataExperiment.comment":null,"controlDataExperiment.experimentalConditionsComment":null,"controlDataExperiment.resultsComment":null,"controlDataExperiment.internalComment":null,"controlDataExperiment.objectCompoundId":null,"controlDataExperiment.objectMetaboliteCompoundId":null,"controlDataExperiment.precipitantCompoundId":null,"controlDataExperiment.cytochromeB5Id":null,"controlDataExperiment.studyId":null,"controlDataExperiment.experimentTypeId":null,"controlDataExperiment.testSystemId":null,"controlDataExperiment.ic50ShiftExperimentId":null,"controlDataExperiment.controlDataExperimentId":null,"controlDataExperiment.controlDataForExperimentId":null,"controlDataExperiment.naturalProductSampleId":null,"controlDataExperiment.experimentType.id":null,"controlDataExperiment.experimentType.name":null,"controlDataExperiment.experimentType.isInVitro":null,"controlDataExperiment.experimentType.isTransporter":null,"controlDataExperiment.experimentType.isEnzyme":null,"controlDataExperiment.experimentType.purl":null,"controlDataExperiment.objectCompound.id":null,"controlDataExperiment.objectCompound.name":null,"controlDataExperiment.objectCompound.unii":null,"controlDataExperiment.objectCompound.inChIKey":null,"controlDataExperiment.objectCompound.publicDescription":null,"controlDataExperiment.objectCompound.internalComment":null,"controlDataExperiment.objectCompound.conceptId":null,"controlDataExperiment.objectCompound.enantiomerOfId":null,"controlDataExperiment.precipitantCompound.id":null,"controlDataExperiment.precipitantCompound.name":null,"controlDataExperiment.precipitantCompound.unii":null,"controlDataExperiment.precipitantCompound.inChIKey":null,"controlDataExperiment.precipitantCompound.publicDescription":null,"controlDataExperiment.precipitantCompound.internalComment":null,"controlDataExperiment.precipitantCompound.conceptId":null,"controlDataExperiment.precipitantCompound.enantiomerOfId":null,"controlDataExperiment.objectMetaboliteCompound.id":null,"controlDataExperiment.objectMetaboliteCompound.name":null,"controlDataExperiment.objectMetaboliteCompound.unii":null,"controlDataExperiment.objectMetaboliteCompound.inChIKey":null,"controlDataExperiment.objectMetaboliteCompound.publicDescriptio":null,"controlDataExperiment.objectMetaboliteCompound.internalComment":null,"controlDataExperiment.objectMetaboliteCompound.conceptId":null,"controlDataExperiment.objectMetaboliteCompound.enantiomerOfId":null,"controlDataExperiment.enzymes.id":null,"controlDataExperiment.enzymes.name":null,"controlDataExperiment.enzymes.conceptId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.enzymeId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.experiment":null,"controlDataExperiment.transporters.id":null,"controlDataExperiment.transporters.name":null,"controlDataExperiment.transporters.conceptId":null,"controlDataExperiment.transporters.experiment_transporter_xref.":null,"controlDataExperiment.quantifiedMetabolites.id":null,"controlDataExperiment.quantifiedMetabolites.name":null,"controlDataExperiment.quantifiedMetabolites.unii":null,"controlDataExperiment.quantifiedMetabolites.inChIKey":null,"controlDataExperiment.quantifiedMetabolites.publicDescription":null,"controlDataExperiment.quantifiedMetabolites.internalComment":null,"controlDataExperiment.quantifiedMetabolites.conceptId":null,"controlDataExperiment.quantifiedMetabolites.enantiomerOfId":null,"controlDataExperiment.quantifiedMetabolites.experiment_quantifi":null,"experimentAnswers.id":14137,"experimentAnswers.text":"ethanol, isopropanol, water (90:5:5, v/v/v)","experimentAnswers.answerId":null,"experimentAnswers.experimentId":776,"experimentAnswers.questionId":1104,"experimentAnswers.question.id":1104,"experimentAnswers.question.text":"Solvent used","experimentAnswers.question.required":false,"experimentAnswers.question.maxAnswers":1,"experimentAnswers.question.type":"STRING","experimentAnswers.question.conceptId":null,"experimentAnswers.question.answers.id":null,"experimentAnswers.question.answers.text":null,"experimentAnswers.question.answers.sortOrder":null,"experimentAnswers.question.answers.conceptId":null,"experimentAnswers.question.answers.questionId":null,"experimentAnswers.answer.id":null,"experimentAnswers.answer.text":null,"experimentAnswers.answer.sortOrder":null,"experimentAnswers.answer.conceptId":null,"experimentAnswers.answer.questionId":null},{"id":776,"uid":"NPDI-ebe-GA","name":"Chemical characterization of Licorice, Glycyrrhiza uralensis","overallEffect":0,"isControlData":false,"isIc50Shift":false,"croCutoff":null,"croIdentifier":null,"comment":null,"experimentalConditionsComment":null,"resultsComment":"% weight compound/weight extract

glabridin, licochalcone a had quantities of 0 and were excluded from the results","internalComment":null,"objectCompoundId":null,"objectMetaboliteCompoundId":null,"precipitantCompoundId":null,"cytochromeB5Id":null,"studyId":155,"experimentTypeId":10,"testSystemId":null,"ic50ShiftExperimentId":null,"controlDataExperimentId":null,"controlDataForExperimentId":null,"naturalProductSampleId":null,"experimentType.id":10,"experimentType.name":"Characterization of Material","experimentType.isInVitro":false,"experimentType.isTransporter":false,"experimentType.isEnzyme":false,"experimentType.purl":"http://purl.obolibrary.org/obo/DIDEO_00005004","objectCompound.id":null,"objectCompound.name":null,"objectCompound.unii":null,"objectCompound.inChIKey":null,"objectCompound.publicDescription":null,"objectCompound.internalComment":null,"objectCompound.conceptId":null,"objectCompound.enantiomerOfId":null,"objectCompound.concept.conceptId":null,"objectCompound.concept.conceptName":null,"objectCompound.concept.domainId":null,"objectCompound.concept.vocabularyId":null,"objectCompound.concept.conceptClassId":null,"objectCompound.concept.standardConcept":null,"objectCompound.concept.conceptCode":null,"objectCompound.concept.validStartDate":null,"objectCompound.concept.validEndDate":null,"objectCompound.concept.invalid_reason":null,"precipitantCompound.id":null,"precipitantCompound.name":null,"precipitantCompound.unii":null,"precipitantCompound.inChIKey":null,"precipitantCompound.publicDescription":null,"precipitantCompound.internalComment":null,"precipitantCompound.conceptId":null,"precipitantCompound.enantiomerOfId":null,"precipitantCompound.concept.conceptId":null,"precipitantCompound.concept.conceptName":null,"precipitantCompound.concept.domainId":null,"precipitantCompound.concept.vocabularyId":null,"precipitantCompound.concept.conceptClassId":null,"precipitantCompound.concept.standardConcept":null,"precipitantCompound.concept.conceptCode":null,"precipitantCompound.concept.validStartDate":null,"precipitantCompound.concept.validEndDate":null,"precipitantCompound.concept.invalid_reason":null,"objectMetaboliteCompound.id":null,"objectMetaboliteCompound.name":null,"objectMetaboliteCompound.unii":null,"objectMetaboliteCompound.inChIKey":null,"objectMetaboliteCompound.publicDescription":null,"objectMetaboliteCompound.internalComment":null,"objectMetaboliteCompound.conceptId":null,"objectMetaboliteCompound.enantiomerOfId":null,"objectMetaboliteCompound.concept.conceptId":null,"objectMetaboliteCompound.concept.conceptName":null,"objectMetaboliteCompound.concept.domainId":null,"objectMetaboliteCompound.concept.vocabularyId":null,"objectMetaboliteCompound.concept.conceptClassId":null,"objectMetaboliteCompound.concept.standardConcept":null,"objectMetaboliteCompound.concept.conceptCode":null,"objectMetaboliteCompound.concept.validStartDate":null,"objectMetaboliteCompound.concept.validEndDate":null,"objectMetaboliteCompound.concept.invalid_reason":null,"enzymes.id":null,"enzymes.name":null,"enzymes.conceptId":null,"enzymes.experiment_enzyme_xref.enzymeId":null,"enzymes.experiment_enzyme_xref.experimentId":null,"transporters.id":null,"transporters.name":null,"transporters.conceptId":null,"transporters.experiment_transporter_xref.experimentId":null,"transporters.experiment_transporter_xref.transporterId":null,"quantifiedMetabolites.id":240,"quantifiedMetabolites.name":"licoricidin","quantifiedMetabolites.unii":null,"quantifiedMetabolites.inChIKey":"GBRZTUJCDFSIHM-KRWDZBQOSA-N","quantifiedMetabolites.publicDescription":null,"quantifiedMetabolites.internalComment":null,"quantifiedMetabolites.conceptId":null,"quantifiedMetabolites.enantiomerOfId":null,"quantifiedMetabolites.experiment_quantified_metabolite_xref.com":240,"quantifiedMetabolites.experiment_quantified_metabolite_xref.exp":776,"study.id":155,"study.uid":"NPDI-Lm3PvA","study.name":"Cytochrome P450 inhibition by licorice species Glycyrrhiza uralensis and fourteen licorice constituents","study.napdiIdentifier":null,"study.overallSummary":"

The potential of licorice dietary supplements to interact with drug metabolism was evaluated by testing extracts of botanically identified licorice species Glycyrrhiza uralensis and 14 isolated licorice compounds for inhibition of 9 cytochrome P450 enzymes using a UHPLC-MS/MS cocktail assay. G. uralensis strongly inhibited CYP2B6 and moderately inhibited CYP2C8, CYP2C9 and CYP2C19. The licorice compounds isoliquiritigenin, licoricidin, licochalcone A, 18β-glycyrrhetinic acid, and glycycoumarin inhibited one or more members of the CYP2C family of enzymes. Glycycoumarin and licochalcone A inhibited CYP1A2, but only glycycoumarin inhibited CYP2B6. Isoliquiritigenin, glabridin and licoricidin competitively inhibited CYP3A4. The licorice species commonly used in botanical dietary supplements have varying potential for drug-botanical interactions as inhibitors of cytochrome P450 isoforms. Each species of licorice displays a unique profile of constituents with potential for drug interactions.

","study.pubmedId":28774812,"study.embaseId":null,"study.croIdentifier":"UIC","study.croInformation":"UIC","study.dateStart":"2017-03-22T00:00:00.000Z","study.dateEnd":"2017-07-30T00:00:00.000Z","study.internalComment":null,"study.status":"published","study.compoundId":null,"study.naturalProductUid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProductSampleId":null,"study.studySourceTypeId":1,"study.naturalProduct.uid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProduct.binomial":"Glycyrrhiza uralensis","study.naturalProduct.name":"Licorice","study.naturalProduct.itis":null,"study.naturalProduct.srs":"dc6f848b-18bb-4620-81b1-b2af39721bd9","study.naturalProduct.source_id":"","study.naturalProduct.conceptId":null,"study.naturalProduct.concept.conceptId":null,"study.naturalProduct.concept.conceptName":null,"study.naturalProduct.concept.domainId":null,"study.naturalProduct.concept.vocabularyId":null,"study.naturalProduct.concept.conceptClassId":null,"study.naturalProduct.concept.standardConcept":null,"study.naturalProduct.concept.conceptCode":null,"study.naturalProduct.concept.validStartDate":null,"study.naturalProduct.concept.validEndDate":null,"study.naturalProduct.concept.invalid_reason":null,"study.compound.id":null,"study.compound.name":null,"study.compound.unii":null,"study.compound.inChIKey":null,"study.compound.publicDescription":null,"study.compound.internalComment":null,"study.compound.conceptId":null,"study.compound.enantiomerOfId":null,"study.studySourceType.id":1,"study.studySourceType.name":"Published report","testSystem.id":null,"testSystem.name":null,"testSystem.sortOrder":null,"testSystem.conceptId":null,"testSystem.categoryId":null,"testSystem.category.id":null,"testSystem.category.name":null,"testSystem.category.sortOrder":null,"testSystem.category.requiresCytochromeB5":null,"cytochromeB5.id":null,"cytochromeB5.name":null,"cytochromeB5.sortOrder":null,"cytochromeB5.conceptId":null,"controlDataExperiment.id":null,"controlDataExperiment.uid":null,"controlDataExperiment.name":null,"controlDataExperiment.overallEffect":null,"controlDataExperiment.isControlData":null,"controlDataExperiment.isIc50Shift":null,"controlDataExperiment.croCutoff":null,"controlDataExperiment.croIdentifier":null,"controlDataExperiment.comment":null,"controlDataExperiment.experimentalConditionsComment":null,"controlDataExperiment.resultsComment":null,"controlDataExperiment.internalComment":null,"controlDataExperiment.objectCompoundId":null,"controlDataExperiment.objectMetaboliteCompoundId":null,"controlDataExperiment.precipitantCompoundId":null,"controlDataExperiment.cytochromeB5Id":null,"controlDataExperiment.studyId":null,"controlDataExperiment.experimentTypeId":null,"controlDataExperiment.testSystemId":null,"controlDataExperiment.ic50ShiftExperimentId":null,"controlDataExperiment.controlDataExperimentId":null,"controlDataExperiment.controlDataForExperimentId":null,"controlDataExperiment.naturalProductSampleId":null,"controlDataExperiment.experimentType.id":null,"controlDataExperiment.experimentType.name":null,"controlDataExperiment.experimentType.isInVitro":null,"controlDataExperiment.experimentType.isTransporter":null,"controlDataExperiment.experimentType.isEnzyme":null,"controlDataExperiment.experimentType.purl":null,"controlDataExperiment.objectCompound.id":null,"controlDataExperiment.objectCompound.name":null,"controlDataExperiment.objectCompound.unii":null,"controlDataExperiment.objectCompound.inChIKey":null,"controlDataExperiment.objectCompound.publicDescription":null,"controlDataExperiment.objectCompound.internalComment":null,"controlDataExperiment.objectCompound.conceptId":null,"controlDataExperiment.objectCompound.enantiomerOfId":null,"controlDataExperiment.precipitantCompound.id":null,"controlDataExperiment.precipitantCompound.name":null,"controlDataExperiment.precipitantCompound.unii":null,"controlDataExperiment.precipitantCompound.inChIKey":null,"controlDataExperiment.precipitantCompound.publicDescription":null,"controlDataExperiment.precipitantCompound.internalComment":null,"controlDataExperiment.precipitantCompound.conceptId":null,"controlDataExperiment.precipitantCompound.enantiomerOfId":null,"controlDataExperiment.objectMetaboliteCompound.id":null,"controlDataExperiment.objectMetaboliteCompound.name":null,"controlDataExperiment.objectMetaboliteCompound.unii":null,"controlDataExperiment.objectMetaboliteCompound.inChIKey":null,"controlDataExperiment.objectMetaboliteCompound.publicDescriptio":null,"controlDataExperiment.objectMetaboliteCompound.internalComment":null,"controlDataExperiment.objectMetaboliteCompound.conceptId":null,"controlDataExperiment.objectMetaboliteCompound.enantiomerOfId":null,"controlDataExperiment.enzymes.id":null,"controlDataExperiment.enzymes.name":null,"controlDataExperiment.enzymes.conceptId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.enzymeId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.experiment":null,"controlDataExperiment.transporters.id":null,"controlDataExperiment.transporters.name":null,"controlDataExperiment.transporters.conceptId":null,"controlDataExperiment.transporters.experiment_transporter_xref.":null,"controlDataExperiment.quantifiedMetabolites.id":null,"controlDataExperiment.quantifiedMetabolites.name":null,"controlDataExperiment.quantifiedMetabolites.unii":null,"controlDataExperiment.quantifiedMetabolites.inChIKey":null,"controlDataExperiment.quantifiedMetabolites.publicDescription":null,"controlDataExperiment.quantifiedMetabolites.internalComment":null,"controlDataExperiment.quantifiedMetabolites.conceptId":null,"controlDataExperiment.quantifiedMetabolites.enantiomerOfId":null,"controlDataExperiment.quantifiedMetabolites.experiment_quantifi":null,"experimentAnswers.id":14138,"experimentAnswers.text":"species checked with DNA barcoding, and comparison with voucher specimens at the Field Museum of Natural History, Chicago.","experimentAnswers.answerId":null,"experimentAnswers.experimentId":776,"experimentAnswers.questionId":1106,"experimentAnswers.question.id":1106,"experimentAnswers.question.text":"Material preparation additional information","experimentAnswers.question.required":false,"experimentAnswers.question.maxAnswers":1,"experimentAnswers.question.type":"TEXT","experimentAnswers.question.conceptId":null,"experimentAnswers.question.answers.id":null,"experimentAnswers.question.answers.text":null,"experimentAnswers.question.answers.sortOrder":null,"experimentAnswers.question.answers.conceptId":null,"experimentAnswers.question.answers.questionId":null,"experimentAnswers.answer.id":null,"experimentAnswers.answer.text":null,"experimentAnswers.answer.sortOrder":null,"experimentAnswers.answer.conceptId":null,"experimentAnswers.answer.questionId":null},{"id":776,"uid":"NPDI-ebe-GA","name":"Chemical characterization of Licorice, Glycyrrhiza uralensis","overallEffect":0,"isControlData":false,"isIc50Shift":false,"croCutoff":null,"croIdentifier":null,"comment":null,"experimentalConditionsComment":null,"resultsComment":"% weight compound/weight extract

glabridin, licochalcone a had quantities of 0 and were excluded from the results","internalComment":null,"objectCompoundId":null,"objectMetaboliteCompoundId":null,"precipitantCompoundId":null,"cytochromeB5Id":null,"studyId":155,"experimentTypeId":10,"testSystemId":null,"ic50ShiftExperimentId":null,"controlDataExperimentId":null,"controlDataForExperimentId":null,"naturalProductSampleId":null,"experimentType.id":10,"experimentType.name":"Characterization of Material","experimentType.isInVitro":false,"experimentType.isTransporter":false,"experimentType.isEnzyme":false,"experimentType.purl":"http://purl.obolibrary.org/obo/DIDEO_00005004","objectCompound.id":null,"objectCompound.name":null,"objectCompound.unii":null,"objectCompound.inChIKey":null,"objectCompound.publicDescription":null,"objectCompound.internalComment":null,"objectCompound.conceptId":null,"objectCompound.enantiomerOfId":null,"objectCompound.concept.conceptId":null,"objectCompound.concept.conceptName":null,"objectCompound.concept.domainId":null,"objectCompound.concept.vocabularyId":null,"objectCompound.concept.conceptClassId":null,"objectCompound.concept.standardConcept":null,"objectCompound.concept.conceptCode":null,"objectCompound.concept.validStartDate":null,"objectCompound.concept.validEndDate":null,"objectCompound.concept.invalid_reason":null,"precipitantCompound.id":null,"precipitantCompound.name":null,"precipitantCompound.unii":null,"precipitantCompound.inChIKey":null,"precipitantCompound.publicDescription":null,"precipitantCompound.internalComment":null,"precipitantCompound.conceptId":null,"precipitantCompound.enantiomerOfId":null,"precipitantCompound.concept.conceptId":null,"precipitantCompound.concept.conceptName":null,"precipitantCompound.concept.domainId":null,"precipitantCompound.concept.vocabularyId":null,"precipitantCompound.concept.conceptClassId":null,"precipitantCompound.concept.standardConcept":null,"precipitantCompound.concept.conceptCode":null,"precipitantCompound.concept.validStartDate":null,"precipitantCompound.concept.validEndDate":null,"precipitantCompound.concept.invalid_reason":null,"objectMetaboliteCompound.id":null,"objectMetaboliteCompound.name":null,"objectMetaboliteCompound.unii":null,"objectMetaboliteCompound.inChIKey":null,"objectMetaboliteCompound.publicDescription":null,"objectMetaboliteCompound.internalComment":null,"objectMetaboliteCompound.conceptId":null,"objectMetaboliteCompound.enantiomerOfId":null,"objectMetaboliteCompound.concept.conceptId":null,"objectMetaboliteCompound.concept.conceptName":null,"objectMetaboliteCompound.concept.domainId":null,"objectMetaboliteCompound.concept.vocabularyId":null,"objectMetaboliteCompound.concept.conceptClassId":null,"objectMetaboliteCompound.concept.standardConcept":null,"objectMetaboliteCompound.concept.conceptCode":null,"objectMetaboliteCompound.concept.validStartDate":null,"objectMetaboliteCompound.concept.validEndDate":null,"objectMetaboliteCompound.concept.invalid_reason":null,"enzymes.id":null,"enzymes.name":null,"enzymes.conceptId":null,"enzymes.experiment_enzyme_xref.enzymeId":null,"enzymes.experiment_enzyme_xref.experimentId":null,"transporters.id":null,"transporters.name":null,"transporters.conceptId":null,"transporters.experiment_transporter_xref.experimentId":null,"transporters.experiment_transporter_xref.transporterId":null,"quantifiedMetabolites.id":240,"quantifiedMetabolites.name":"licoricidin","quantifiedMetabolites.unii":null,"quantifiedMetabolites.inChIKey":"GBRZTUJCDFSIHM-KRWDZBQOSA-N","quantifiedMetabolites.publicDescription":null,"quantifiedMetabolites.internalComment":null,"quantifiedMetabolites.conceptId":null,"quantifiedMetabolites.enantiomerOfId":null,"quantifiedMetabolites.experiment_quantified_metabolite_xref.com":240,"quantifiedMetabolites.experiment_quantified_metabolite_xref.exp":776,"study.id":155,"study.uid":"NPDI-Lm3PvA","study.name":"Cytochrome P450 inhibition by licorice species Glycyrrhiza uralensis and fourteen licorice constituents","study.napdiIdentifier":null,"study.overallSummary":"

The potential of licorice dietary supplements to interact with drug metabolism was evaluated by testing extracts of botanically identified licorice species Glycyrrhiza uralensis and 14 isolated licorice compounds for inhibition of 9 cytochrome P450 enzymes using a UHPLC-MS/MS cocktail assay. G. uralensis strongly inhibited CYP2B6 and moderately inhibited CYP2C8, CYP2C9 and CYP2C19. The licorice compounds isoliquiritigenin, licoricidin, licochalcone A, 18β-glycyrrhetinic acid, and glycycoumarin inhibited one or more members of the CYP2C family of enzymes. Glycycoumarin and licochalcone A inhibited CYP1A2, but only glycycoumarin inhibited CYP2B6. Isoliquiritigenin, glabridin and licoricidin competitively inhibited CYP3A4. The licorice species commonly used in botanical dietary supplements have varying potential for drug-botanical interactions as inhibitors of cytochrome P450 isoforms. Each species of licorice displays a unique profile of constituents with potential for drug interactions.

","study.pubmedId":28774812,"study.embaseId":null,"study.croIdentifier":"UIC","study.croInformation":"UIC","study.dateStart":"2017-03-22T00:00:00.000Z","study.dateEnd":"2017-07-30T00:00:00.000Z","study.internalComment":null,"study.status":"published","study.compoundId":null,"study.naturalProductUid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProductSampleId":null,"study.studySourceTypeId":1,"study.naturalProduct.uid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProduct.binomial":"Glycyrrhiza uralensis","study.naturalProduct.name":"Licorice","study.naturalProduct.itis":null,"study.naturalProduct.srs":"dc6f848b-18bb-4620-81b1-b2af39721bd9","study.naturalProduct.source_id":"","study.naturalProduct.conceptId":null,"study.naturalProduct.concept.conceptId":null,"study.naturalProduct.concept.conceptName":null,"study.naturalProduct.concept.domainId":null,"study.naturalProduct.concept.vocabularyId":null,"study.naturalProduct.concept.conceptClassId":null,"study.naturalProduct.concept.standardConcept":null,"study.naturalProduct.concept.conceptCode":null,"study.naturalProduct.concept.validStartDate":null,"study.naturalProduct.concept.validEndDate":null,"study.naturalProduct.concept.invalid_reason":null,"study.compound.id":null,"study.compound.name":null,"study.compound.unii":null,"study.compound.inChIKey":null,"study.compound.publicDescription":null,"study.compound.internalComment":null,"study.compound.conceptId":null,"study.compound.enantiomerOfId":null,"study.studySourceType.id":1,"study.studySourceType.name":"Published report","testSystem.id":null,"testSystem.name":null,"testSystem.sortOrder":null,"testSystem.conceptId":null,"testSystem.categoryId":null,"testSystem.category.id":null,"testSystem.category.name":null,"testSystem.category.sortOrder":null,"testSystem.category.requiresCytochromeB5":null,"cytochromeB5.id":null,"cytochromeB5.name":null,"cytochromeB5.sortOrder":null,"cytochromeB5.conceptId":null,"controlDataExperiment.id":null,"controlDataExperiment.uid":null,"controlDataExperiment.name":null,"controlDataExperiment.overallEffect":null,"controlDataExperiment.isControlData":null,"controlDataExperiment.isIc50Shift":null,"controlDataExperiment.croCutoff":null,"controlDataExperiment.croIdentifier":null,"controlDataExperiment.comment":null,"controlDataExperiment.experimentalConditionsComment":null,"controlDataExperiment.resultsComment":null,"controlDataExperiment.internalComment":null,"controlDataExperiment.objectCompoundId":null,"controlDataExperiment.objectMetaboliteCompoundId":null,"controlDataExperiment.precipitantCompoundId":null,"controlDataExperiment.cytochromeB5Id":null,"controlDataExperiment.studyId":null,"controlDataExperiment.experimentTypeId":null,"controlDataExperiment.testSystemId":null,"controlDataExperiment.ic50ShiftExperimentId":null,"controlDataExperiment.controlDataExperimentId":null,"controlDataExperiment.controlDataForExperimentId":null,"controlDataExperiment.naturalProductSampleId":null,"controlDataExperiment.experimentType.id":null,"controlDataExperiment.experimentType.name":null,"controlDataExperiment.experimentType.isInVitro":null,"controlDataExperiment.experimentType.isTransporter":null,"controlDataExperiment.experimentType.isEnzyme":null,"controlDataExperiment.experimentType.purl":null,"controlDataExperiment.objectCompound.id":null,"controlDataExperiment.objectCompound.name":null,"controlDataExperiment.objectCompound.unii":null,"controlDataExperiment.objectCompound.inChIKey":null,"controlDataExperiment.objectCompound.publicDescription":null,"controlDataExperiment.objectCompound.internalComment":null,"controlDataExperiment.objectCompound.conceptId":null,"controlDataExperiment.objectCompound.enantiomerOfId":null,"controlDataExperiment.precipitantCompound.id":null,"controlDataExperiment.precipitantCompound.name":null,"controlDataExperiment.precipitantCompound.unii":null,"controlDataExperiment.precipitantCompound.inChIKey":null,"controlDataExperiment.precipitantCompound.publicDescription":null,"controlDataExperiment.precipitantCompound.internalComment":null,"controlDataExperiment.precipitantCompound.conceptId":null,"controlDataExperiment.precipitantCompound.enantiomerOfId":null,"controlDataExperiment.objectMetaboliteCompound.id":null,"controlDataExperiment.objectMetaboliteCompound.name":null,"controlDataExperiment.objectMetaboliteCompound.unii":null,"controlDataExperiment.objectMetaboliteCompound.inChIKey":null,"controlDataExperiment.objectMetaboliteCompound.publicDescriptio":null,"controlDataExperiment.objectMetaboliteCompound.internalComment":null,"controlDataExperiment.objectMetaboliteCompound.conceptId":null,"controlDataExperiment.objectMetaboliteCompound.enantiomerOfId":null,"controlDataExperiment.enzymes.id":null,"controlDataExperiment.enzymes.name":null,"controlDataExperiment.enzymes.conceptId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.enzymeId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.experiment":null,"controlDataExperiment.transporters.id":null,"controlDataExperiment.transporters.name":null,"controlDataExperiment.transporters.conceptId":null,"controlDataExperiment.transporters.experiment_transporter_xref.":null,"controlDataExperiment.quantifiedMetabolites.id":null,"controlDataExperiment.quantifiedMetabolites.name":null,"controlDataExperiment.quantifiedMetabolites.unii":null,"controlDataExperiment.quantifiedMetabolites.inChIKey":null,"controlDataExperiment.quantifiedMetabolites.publicDescription":null,"controlDataExperiment.quantifiedMetabolites.internalComment":null,"controlDataExperiment.quantifiedMetabolites.conceptId":null,"controlDataExperiment.quantifiedMetabolites.enantiomerOfId":null,"controlDataExperiment.quantifiedMetabolites.experiment_quantifi":null,"experimentAnswers.id":14139,"experimentAnswers.text":"UHPLC-MS/MS","experimentAnswers.answerId":null,"experimentAnswers.experimentId":776,"experimentAnswers.questionId":1113,"experimentAnswers.question.id":1113,"experimentAnswers.question.text":"Mass spectrometry instrument used","experimentAnswers.question.required":false,"experimentAnswers.question.maxAnswers":1,"experimentAnswers.question.type":"STRING","experimentAnswers.question.conceptId":null,"experimentAnswers.question.answers.id":null,"experimentAnswers.question.answers.text":null,"experimentAnswers.question.answers.sortOrder":null,"experimentAnswers.question.answers.conceptId":null,"experimentAnswers.question.answers.questionId":null,"experimentAnswers.answer.id":null,"experimentAnswers.answer.text":null,"experimentAnswers.answer.sortOrder":null,"experimentAnswers.answer.conceptId":null,"experimentAnswers.answer.questionId":null},{"id":776,"uid":"NPDI-ebe-GA","name":"Chemical characterization of Licorice, Glycyrrhiza uralensis","overallEffect":0,"isControlData":false,"isIc50Shift":false,"croCutoff":null,"croIdentifier":null,"comment":null,"experimentalConditionsComment":null,"resultsComment":"% weight compound/weight extract

glabridin, licochalcone a had quantities of 0 and were excluded from the results","internalComment":null,"objectCompoundId":null,"objectMetaboliteCompoundId":null,"precipitantCompoundId":null,"cytochromeB5Id":null,"studyId":155,"experimentTypeId":10,"testSystemId":null,"ic50ShiftExperimentId":null,"controlDataExperimentId":null,"controlDataForExperimentId":null,"naturalProductSampleId":null,"experimentType.id":10,"experimentType.name":"Characterization of Material","experimentType.isInVitro":false,"experimentType.isTransporter":false,"experimentType.isEnzyme":false,"experimentType.purl":"http://purl.obolibrary.org/obo/DIDEO_00005004","objectCompound.id":null,"objectCompound.name":null,"objectCompound.unii":null,"objectCompound.inChIKey":null,"objectCompound.publicDescription":null,"objectCompound.internalComment":null,"objectCompound.conceptId":null,"objectCompound.enantiomerOfId":null,"objectCompound.concept.conceptId":null,"objectCompound.concept.conceptName":null,"objectCompound.concept.domainId":null,"objectCompound.concept.vocabularyId":null,"objectCompound.concept.conceptClassId":null,"objectCompound.concept.standardConcept":null,"objectCompound.concept.conceptCode":null,"objectCompound.concept.validStartDate":null,"objectCompound.concept.validEndDate":null,"objectCompound.concept.invalid_reason":null,"precipitantCompound.id":null,"precipitantCompound.name":null,"precipitantCompound.unii":null,"precipitantCompound.inChIKey":null,"precipitantCompound.publicDescription":null,"precipitantCompound.internalComment":null,"precipitantCompound.conceptId":null,"precipitantCompound.enantiomerOfId":null,"precipitantCompound.concept.conceptId":null,"precipitantCompound.concept.conceptName":null,"precipitantCompound.concept.domainId":null,"precipitantCompound.concept.vocabularyId":null,"precipitantCompound.concept.conceptClassId":null,"precipitantCompound.concept.standardConcept":null,"precipitantCompound.concept.conceptCode":null,"precipitantCompound.concept.validStartDate":null,"precipitantCompound.concept.validEndDate":null,"precipitantCompound.concept.invalid_reason":null,"objectMetaboliteCompound.id":null,"objectMetaboliteCompound.name":null,"objectMetaboliteCompound.unii":null,"objectMetaboliteCompound.inChIKey":null,"objectMetaboliteCompound.publicDescription":null,"objectMetaboliteCompound.internalComment":null,"objectMetaboliteCompound.conceptId":null,"objectMetaboliteCompound.enantiomerOfId":null,"objectMetaboliteCompound.concept.conceptId":null,"objectMetaboliteCompound.concept.conceptName":null,"objectMetaboliteCompound.concept.domainId":null,"objectMetaboliteCompound.concept.vocabularyId":null,"objectMetaboliteCompound.concept.conceptClassId":null,"objectMetaboliteCompound.concept.standardConcept":null,"objectMetaboliteCompound.concept.conceptCode":null,"objectMetaboliteCompound.concept.validStartDate":null,"objectMetaboliteCompound.concept.validEndDate":null,"objectMetaboliteCompound.concept.invalid_reason":null,"enzymes.id":null,"enzymes.name":null,"enzymes.conceptId":null,"enzymes.experiment_enzyme_xref.enzymeId":null,"enzymes.experiment_enzyme_xref.experimentId":null,"transporters.id":null,"transporters.name":null,"transporters.conceptId":null,"transporters.experiment_transporter_xref.experimentId":null,"transporters.experiment_transporter_xref.transporterId":null,"quantifiedMetabolites.id":239,"quantifiedMetabolites.name":"glycyrrhetinic acid","quantifiedMetabolites.unii":null,"quantifiedMetabolites.inChIKey":"MPDGHEJMBKOTSU-PMTKVOBESA-N","quantifiedMetabolites.publicDescription":null,"quantifiedMetabolites.internalComment":null,"quantifiedMetabolites.conceptId":null,"quantifiedMetabolites.enantiomerOfId":null,"quantifiedMetabolites.experiment_quantified_metabolite_xref.com":239,"quantifiedMetabolites.experiment_quantified_metabolite_xref.exp":776,"study.id":155,"study.uid":"NPDI-Lm3PvA","study.name":"Cytochrome P450 inhibition by licorice species Glycyrrhiza uralensis and fourteen licorice constituents","study.napdiIdentifier":null,"study.overallSummary":"

The potential of licorice dietary supplements to interact with drug metabolism was evaluated by testing extracts of botanically identified licorice species Glycyrrhiza uralensis and 14 isolated licorice compounds for inhibition of 9 cytochrome P450 enzymes using a UHPLC-MS/MS cocktail assay. G. uralensis strongly inhibited CYP2B6 and moderately inhibited CYP2C8, CYP2C9 and CYP2C19. The licorice compounds isoliquiritigenin, licoricidin, licochalcone A, 18β-glycyrrhetinic acid, and glycycoumarin inhibited one or more members of the CYP2C family of enzymes. Glycycoumarin and licochalcone A inhibited CYP1A2, but only glycycoumarin inhibited CYP2B6. Isoliquiritigenin, glabridin and licoricidin competitively inhibited CYP3A4. The licorice species commonly used in botanical dietary supplements have varying potential for drug-botanical interactions as inhibitors of cytochrome P450 isoforms. Each species of licorice displays a unique profile of constituents with potential for drug interactions.

","study.pubmedId":28774812,"study.embaseId":null,"study.croIdentifier":"UIC","study.croInformation":"UIC","study.dateStart":"2017-03-22T00:00:00.000Z","study.dateEnd":"2017-07-30T00:00:00.000Z","study.internalComment":null,"study.status":"published","study.compoundId":null,"study.naturalProductUid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProductSampleId":null,"study.studySourceTypeId":1,"study.naturalProduct.uid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProduct.binomial":"Glycyrrhiza uralensis","study.naturalProduct.name":"Licorice","study.naturalProduct.itis":null,"study.naturalProduct.srs":"dc6f848b-18bb-4620-81b1-b2af39721bd9","study.naturalProduct.source_id":"","study.naturalProduct.conceptId":null,"study.naturalProduct.concept.conceptId":null,"study.naturalProduct.concept.conceptName":null,"study.naturalProduct.concept.domainId":null,"study.naturalProduct.concept.vocabularyId":null,"study.naturalProduct.concept.conceptClassId":null,"study.naturalProduct.concept.standardConcept":null,"study.naturalProduct.concept.conceptCode":null,"study.naturalProduct.concept.validStartDate":null,"study.naturalProduct.concept.validEndDate":null,"study.naturalProduct.concept.invalid_reason":null,"study.compound.id":null,"study.compound.name":null,"study.compound.unii":null,"study.compound.inChIKey":null,"study.compound.publicDescription":null,"study.compound.internalComment":null,"study.compound.conceptId":null,"study.compound.enantiomerOfId":null,"study.studySourceType.id":1,"study.studySourceType.name":"Published report","testSystem.id":null,"testSystem.name":null,"testSystem.sortOrder":null,"testSystem.conceptId":null,"testSystem.categoryId":null,"testSystem.category.id":null,"testSystem.category.name":null,"testSystem.category.sortOrder":null,"testSystem.category.requiresCytochromeB5":null,"cytochromeB5.id":null,"cytochromeB5.name":null,"cytochromeB5.sortOrder":null,"cytochromeB5.conceptId":null,"controlDataExperiment.id":null,"controlDataExperiment.uid":null,"controlDataExperiment.name":null,"controlDataExperiment.overallEffect":null,"controlDataExperiment.isControlData":null,"controlDataExperiment.isIc50Shift":null,"controlDataExperiment.croCutoff":null,"controlDataExperiment.croIdentifier":null,"controlDataExperiment.comment":null,"controlDataExperiment.experimentalConditionsComment":null,"controlDataExperiment.resultsComment":null,"controlDataExperiment.internalComment":null,"controlDataExperiment.objectCompoundId":null,"controlDataExperiment.objectMetaboliteCompoundId":null,"controlDataExperiment.precipitantCompoundId":null,"controlDataExperiment.cytochromeB5Id":null,"controlDataExperiment.studyId":null,"controlDataExperiment.experimentTypeId":null,"controlDataExperiment.testSystemId":null,"controlDataExperiment.ic50ShiftExperimentId":null,"controlDataExperiment.controlDataExperimentId":null,"controlDataExperiment.controlDataForExperimentId":null,"controlDataExperiment.naturalProductSampleId":null,"controlDataExperiment.experimentType.id":null,"controlDataExperiment.experimentType.name":null,"controlDataExperiment.experimentType.isInVitro":null,"controlDataExperiment.experimentType.isTransporter":null,"controlDataExperiment.experimentType.isEnzyme":null,"controlDataExperiment.experimentType.purl":null,"controlDataExperiment.objectCompound.id":null,"controlDataExperiment.objectCompound.name":null,"controlDataExperiment.objectCompound.unii":null,"controlDataExperiment.objectCompound.inChIKey":null,"controlDataExperiment.objectCompound.publicDescription":null,"controlDataExperiment.objectCompound.internalComment":null,"controlDataExperiment.objectCompound.conceptId":null,"controlDataExperiment.objectCompound.enantiomerOfId":null,"controlDataExperiment.precipitantCompound.id":null,"controlDataExperiment.precipitantCompound.name":null,"controlDataExperiment.precipitantCompound.unii":null,"controlDataExperiment.precipitantCompound.inChIKey":null,"controlDataExperiment.precipitantCompound.publicDescription":null,"controlDataExperiment.precipitantCompound.internalComment":null,"controlDataExperiment.precipitantCompound.conceptId":null,"controlDataExperiment.precipitantCompound.enantiomerOfId":null,"controlDataExperiment.objectMetaboliteCompound.id":null,"controlDataExperiment.objectMetaboliteCompound.name":null,"controlDataExperiment.objectMetaboliteCompound.unii":null,"controlDataExperiment.objectMetaboliteCompound.inChIKey":null,"controlDataExperiment.objectMetaboliteCompound.publicDescriptio":null,"controlDataExperiment.objectMetaboliteCompound.internalComment":null,"controlDataExperiment.objectMetaboliteCompound.conceptId":null,"controlDataExperiment.objectMetaboliteCompound.enantiomerOfId":null,"controlDataExperiment.enzymes.id":null,"controlDataExperiment.enzymes.name":null,"controlDataExperiment.enzymes.conceptId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.enzymeId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.experiment":null,"controlDataExperiment.transporters.id":null,"controlDataExperiment.transporters.name":null,"controlDataExperiment.transporters.conceptId":null,"controlDataExperiment.transporters.experiment_transporter_xref.":null,"controlDataExperiment.quantifiedMetabolites.id":null,"controlDataExperiment.quantifiedMetabolites.name":null,"controlDataExperiment.quantifiedMetabolites.unii":null,"controlDataExperiment.quantifiedMetabolites.inChIKey":null,"controlDataExperiment.quantifiedMetabolites.publicDescription":null,"controlDataExperiment.quantifiedMetabolites.internalComment":null,"controlDataExperiment.quantifiedMetabolites.conceptId":null,"controlDataExperiment.quantifiedMetabolites.enantiomerOfId":null,"controlDataExperiment.quantifiedMetabolites.experiment_quantifi":null,"experimentAnswers.id":14137,"experimentAnswers.text":"ethanol, isopropanol, water (90:5:5, v/v/v)","experimentAnswers.answerId":null,"experimentAnswers.experimentId":776,"experimentAnswers.questionId":1104,"experimentAnswers.question.id":1104,"experimentAnswers.question.text":"Solvent used","experimentAnswers.question.required":false,"experimentAnswers.question.maxAnswers":1,"experimentAnswers.question.type":"STRING","experimentAnswers.question.conceptId":null,"experimentAnswers.question.answers.id":null,"experimentAnswers.question.answers.text":null,"experimentAnswers.question.answers.sortOrder":null,"experimentAnswers.question.answers.conceptId":null,"experimentAnswers.question.answers.questionId":null,"experimentAnswers.answer.id":null,"experimentAnswers.answer.text":null,"experimentAnswers.answer.sortOrder":null,"experimentAnswers.answer.conceptId":null,"experimentAnswers.answer.questionId":null},{"id":776,"uid":"NPDI-ebe-GA","name":"Chemical characterization of Licorice, Glycyrrhiza uralensis","overallEffect":0,"isControlData":false,"isIc50Shift":false,"croCutoff":null,"croIdentifier":null,"comment":null,"experimentalConditionsComment":null,"resultsComment":"% weight compound/weight extract

glabridin, licochalcone a had quantities of 0 and were excluded from the results","internalComment":null,"objectCompoundId":null,"objectMetaboliteCompoundId":null,"precipitantCompoundId":null,"cytochromeB5Id":null,"studyId":155,"experimentTypeId":10,"testSystemId":null,"ic50ShiftExperimentId":null,"controlDataExperimentId":null,"controlDataForExperimentId":null,"naturalProductSampleId":null,"experimentType.id":10,"experimentType.name":"Characterization of Material","experimentType.isInVitro":false,"experimentType.isTransporter":false,"experimentType.isEnzyme":false,"experimentType.purl":"http://purl.obolibrary.org/obo/DIDEO_00005004","objectCompound.id":null,"objectCompound.name":null,"objectCompound.unii":null,"objectCompound.inChIKey":null,"objectCompound.publicDescription":null,"objectCompound.internalComment":null,"objectCompound.conceptId":null,"objectCompound.enantiomerOfId":null,"objectCompound.concept.conceptId":null,"objectCompound.concept.conceptName":null,"objectCompound.concept.domainId":null,"objectCompound.concept.vocabularyId":null,"objectCompound.concept.conceptClassId":null,"objectCompound.concept.standardConcept":null,"objectCompound.concept.conceptCode":null,"objectCompound.concept.validStartDate":null,"objectCompound.concept.validEndDate":null,"objectCompound.concept.invalid_reason":null,"precipitantCompound.id":null,"precipitantCompound.name":null,"precipitantCompound.unii":null,"precipitantCompound.inChIKey":null,"precipitantCompound.publicDescription":null,"precipitantCompound.internalComment":null,"precipitantCompound.conceptId":null,"precipitantCompound.enantiomerOfId":null,"precipitantCompound.concept.conceptId":null,"precipitantCompound.concept.conceptName":null,"precipitantCompound.concept.domainId":null,"precipitantCompound.concept.vocabularyId":null,"precipitantCompound.concept.conceptClassId":null,"precipitantCompound.concept.standardConcept":null,"precipitantCompound.concept.conceptCode":null,"precipitantCompound.concept.validStartDate":null,"precipitantCompound.concept.validEndDate":null,"precipitantCompound.concept.invalid_reason":null,"objectMetaboliteCompound.id":null,"objectMetaboliteCompound.name":null,"objectMetaboliteCompound.unii":null,"objectMetaboliteCompound.inChIKey":null,"objectMetaboliteCompound.publicDescription":null,"objectMetaboliteCompound.internalComment":null,"objectMetaboliteCompound.conceptId":null,"objectMetaboliteCompound.enantiomerOfId":null,"objectMetaboliteCompound.concept.conceptId":null,"objectMetaboliteCompound.concept.conceptName":null,"objectMetaboliteCompound.concept.domainId":null,"objectMetaboliteCompound.concept.vocabularyId":null,"objectMetaboliteCompound.concept.conceptClassId":null,"objectMetaboliteCompound.concept.standardConcept":null,"objectMetaboliteCompound.concept.conceptCode":null,"objectMetaboliteCompound.concept.validStartDate":null,"objectMetaboliteCompound.concept.validEndDate":null,"objectMetaboliteCompound.concept.invalid_reason":null,"enzymes.id":null,"enzymes.name":null,"enzymes.conceptId":null,"enzymes.experiment_enzyme_xref.enzymeId":null,"enzymes.experiment_enzyme_xref.experimentId":null,"transporters.id":null,"transporters.name":null,"transporters.conceptId":null,"transporters.experiment_transporter_xref.experimentId":null,"transporters.experiment_transporter_xref.transporterId":null,"quantifiedMetabolites.id":239,"quantifiedMetabolites.name":"glycyrrhetinic acid","quantifiedMetabolites.unii":null,"quantifiedMetabolites.inChIKey":"MPDGHEJMBKOTSU-PMTKVOBESA-N","quantifiedMetabolites.publicDescription":null,"quantifiedMetabolites.internalComment":null,"quantifiedMetabolites.conceptId":null,"quantifiedMetabolites.enantiomerOfId":null,"quantifiedMetabolites.experiment_quantified_metabolite_xref.com":239,"quantifiedMetabolites.experiment_quantified_metabolite_xref.exp":776,"study.id":155,"study.uid":"NPDI-Lm3PvA","study.name":"Cytochrome P450 inhibition by licorice species Glycyrrhiza uralensis and fourteen licorice constituents","study.napdiIdentifier":null,"study.overallSummary":"

The potential of licorice dietary supplements to interact with drug metabolism was evaluated by testing extracts of botanically identified licorice species Glycyrrhiza uralensis and 14 isolated licorice compounds for inhibition of 9 cytochrome P450 enzymes using a UHPLC-MS/MS cocktail assay. G. uralensis strongly inhibited CYP2B6 and moderately inhibited CYP2C8, CYP2C9 and CYP2C19. The licorice compounds isoliquiritigenin, licoricidin, licochalcone A, 18β-glycyrrhetinic acid, and glycycoumarin inhibited one or more members of the CYP2C family of enzymes. Glycycoumarin and licochalcone A inhibited CYP1A2, but only glycycoumarin inhibited CYP2B6. Isoliquiritigenin, glabridin and licoricidin competitively inhibited CYP3A4. The licorice species commonly used in botanical dietary supplements have varying potential for drug-botanical interactions as inhibitors of cytochrome P450 isoforms. Each species of licorice displays a unique profile of constituents with potential for drug interactions.

","study.pubmedId":28774812,"study.embaseId":null,"study.croIdentifier":"UIC","study.croInformation":"UIC","study.dateStart":"2017-03-22T00:00:00.000Z","study.dateEnd":"2017-07-30T00:00:00.000Z","study.internalComment":null,"study.status":"published","study.compoundId":null,"study.naturalProductUid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProductSampleId":null,"study.studySourceTypeId":1,"study.naturalProduct.uid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProduct.binomial":"Glycyrrhiza uralensis","study.naturalProduct.name":"Licorice","study.naturalProduct.itis":null,"study.naturalProduct.srs":"dc6f848b-18bb-4620-81b1-b2af39721bd9","study.naturalProduct.source_id":"","study.naturalProduct.conceptId":null,"study.naturalProduct.concept.conceptId":null,"study.naturalProduct.concept.conceptName":null,"study.naturalProduct.concept.domainId":null,"study.naturalProduct.concept.vocabularyId":null,"study.naturalProduct.concept.conceptClassId":null,"study.naturalProduct.concept.standardConcept":null,"study.naturalProduct.concept.conceptCode":null,"study.naturalProduct.concept.validStartDate":null,"study.naturalProduct.concept.validEndDate":null,"study.naturalProduct.concept.invalid_reason":null,"study.compound.id":null,"study.compound.name":null,"study.compound.unii":null,"study.compound.inChIKey":null,"study.compound.publicDescription":null,"study.compound.internalComment":null,"study.compound.conceptId":null,"study.compound.enantiomerOfId":null,"study.studySourceType.id":1,"study.studySourceType.name":"Published report","testSystem.id":null,"testSystem.name":null,"testSystem.sortOrder":null,"testSystem.conceptId":null,"testSystem.categoryId":null,"testSystem.category.id":null,"testSystem.category.name":null,"testSystem.category.sortOrder":null,"testSystem.category.requiresCytochromeB5":null,"cytochromeB5.id":null,"cytochromeB5.name":null,"cytochromeB5.sortOrder":null,"cytochromeB5.conceptId":null,"controlDataExperiment.id":null,"controlDataExperiment.uid":null,"controlDataExperiment.name":null,"controlDataExperiment.overallEffect":null,"controlDataExperiment.isControlData":null,"controlDataExperiment.isIc50Shift":null,"controlDataExperiment.croCutoff":null,"controlDataExperiment.croIdentifier":null,"controlDataExperiment.comment":null,"controlDataExperiment.experimentalConditionsComment":null,"controlDataExperiment.resultsComment":null,"controlDataExperiment.internalComment":null,"controlDataExperiment.objectCompoundId":null,"controlDataExperiment.objectMetaboliteCompoundId":null,"controlDataExperiment.precipitantCompoundId":null,"controlDataExperiment.cytochromeB5Id":null,"controlDataExperiment.studyId":null,"controlDataExperiment.experimentTypeId":null,"controlDataExperiment.testSystemId":null,"controlDataExperiment.ic50ShiftExperimentId":null,"controlDataExperiment.controlDataExperimentId":null,"controlDataExperiment.controlDataForExperimentId":null,"controlDataExperiment.naturalProductSampleId":null,"controlDataExperiment.experimentType.id":null,"controlDataExperiment.experimentType.name":null,"controlDataExperiment.experimentType.isInVitro":null,"controlDataExperiment.experimentType.isTransporter":null,"controlDataExperiment.experimentType.isEnzyme":null,"controlDataExperiment.experimentType.purl":null,"controlDataExperiment.objectCompound.id":null,"controlDataExperiment.objectCompound.name":null,"controlDataExperiment.objectCompound.unii":null,"controlDataExperiment.objectCompound.inChIKey":null,"controlDataExperiment.objectCompound.publicDescription":null,"controlDataExperiment.objectCompound.internalComment":null,"controlDataExperiment.objectCompound.conceptId":null,"controlDataExperiment.objectCompound.enantiomerOfId":null,"controlDataExperiment.precipitantCompound.id":null,"controlDataExperiment.precipitantCompound.name":null,"controlDataExperiment.precipitantCompound.unii":null,"controlDataExperiment.precipitantCompound.inChIKey":null,"controlDataExperiment.precipitantCompound.publicDescription":null,"controlDataExperiment.precipitantCompound.internalComment":null,"controlDataExperiment.precipitantCompound.conceptId":null,"controlDataExperiment.precipitantCompound.enantiomerOfId":null,"controlDataExperiment.objectMetaboliteCompound.id":null,"controlDataExperiment.objectMetaboliteCompound.name":null,"controlDataExperiment.objectMetaboliteCompound.unii":null,"controlDataExperiment.objectMetaboliteCompound.inChIKey":null,"controlDataExperiment.objectMetaboliteCompound.publicDescriptio":null,"controlDataExperiment.objectMetaboliteCompound.internalComment":null,"controlDataExperiment.objectMetaboliteCompound.conceptId":null,"controlDataExperiment.objectMetaboliteCompound.enantiomerOfId":null,"controlDataExperiment.enzymes.id":null,"controlDataExperiment.enzymes.name":null,"controlDataExperiment.enzymes.conceptId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.enzymeId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.experiment":null,"controlDataExperiment.transporters.id":null,"controlDataExperiment.transporters.name":null,"controlDataExperiment.transporters.conceptId":null,"controlDataExperiment.transporters.experiment_transporter_xref.":null,"controlDataExperiment.quantifiedMetabolites.id":null,"controlDataExperiment.quantifiedMetabolites.name":null,"controlDataExperiment.quantifiedMetabolites.unii":null,"controlDataExperiment.quantifiedMetabolites.inChIKey":null,"controlDataExperiment.quantifiedMetabolites.publicDescription":null,"controlDataExperiment.quantifiedMetabolites.internalComment":null,"controlDataExperiment.quantifiedMetabolites.conceptId":null,"controlDataExperiment.quantifiedMetabolites.enantiomerOfId":null,"controlDataExperiment.quantifiedMetabolites.experiment_quantifi":null,"experimentAnswers.id":14138,"experimentAnswers.text":"species checked with DNA barcoding, and comparison with voucher specimens at the Field Museum of Natural History, Chicago.","experimentAnswers.answerId":null,"experimentAnswers.experimentId":776,"experimentAnswers.questionId":1106,"experimentAnswers.question.id":1106,"experimentAnswers.question.text":"Material preparation additional information","experimentAnswers.question.required":false,"experimentAnswers.question.maxAnswers":1,"experimentAnswers.question.type":"TEXT","experimentAnswers.question.conceptId":null,"experimentAnswers.question.answers.id":null,"experimentAnswers.question.answers.text":null,"experimentAnswers.question.answers.sortOrder":null,"experimentAnswers.question.answers.conceptId":null,"experimentAnswers.question.answers.questionId":null,"experimentAnswers.answer.id":null,"experimentAnswers.answer.text":null,"experimentAnswers.answer.sortOrder":null,"experimentAnswers.answer.conceptId":null,"experimentAnswers.answer.questionId":null},{"id":776,"uid":"NPDI-ebe-GA","name":"Chemical characterization of Licorice, Glycyrrhiza uralensis","overallEffect":0,"isControlData":false,"isIc50Shift":false,"croCutoff":null,"croIdentifier":null,"comment":null,"experimentalConditionsComment":null,"resultsComment":"% weight compound/weight extract

glabridin, licochalcone a had quantities of 0 and were excluded from the results","internalComment":null,"objectCompoundId":null,"objectMetaboliteCompoundId":null,"precipitantCompoundId":null,"cytochromeB5Id":null,"studyId":155,"experimentTypeId":10,"testSystemId":null,"ic50ShiftExperimentId":null,"controlDataExperimentId":null,"controlDataForExperimentId":null,"naturalProductSampleId":null,"experimentType.id":10,"experimentType.name":"Characterization of Material","experimentType.isInVitro":false,"experimentType.isTransporter":false,"experimentType.isEnzyme":false,"experimentType.purl":"http://purl.obolibrary.org/obo/DIDEO_00005004","objectCompound.id":null,"objectCompound.name":null,"objectCompound.unii":null,"objectCompound.inChIKey":null,"objectCompound.publicDescription":null,"objectCompound.internalComment":null,"objectCompound.conceptId":null,"objectCompound.enantiomerOfId":null,"objectCompound.concept.conceptId":null,"objectCompound.concept.conceptName":null,"objectCompound.concept.domainId":null,"objectCompound.concept.vocabularyId":null,"objectCompound.concept.conceptClassId":null,"objectCompound.concept.standardConcept":null,"objectCompound.concept.conceptCode":null,"objectCompound.concept.validStartDate":null,"objectCompound.concept.validEndDate":null,"objectCompound.concept.invalid_reason":null,"precipitantCompound.id":null,"precipitantCompound.name":null,"precipitantCompound.unii":null,"precipitantCompound.inChIKey":null,"precipitantCompound.publicDescription":null,"precipitantCompound.internalComment":null,"precipitantCompound.conceptId":null,"precipitantCompound.enantiomerOfId":null,"precipitantCompound.concept.conceptId":null,"precipitantCompound.concept.conceptName":null,"precipitantCompound.concept.domainId":null,"precipitantCompound.concept.vocabularyId":null,"precipitantCompound.concept.conceptClassId":null,"precipitantCompound.concept.standardConcept":null,"precipitantCompound.concept.conceptCode":null,"precipitantCompound.concept.validStartDate":null,"precipitantCompound.concept.validEndDate":null,"precipitantCompound.concept.invalid_reason":null,"objectMetaboliteCompound.id":null,"objectMetaboliteCompound.name":null,"objectMetaboliteCompound.unii":null,"objectMetaboliteCompound.inChIKey":null,"objectMetaboliteCompound.publicDescription":null,"objectMetaboliteCompound.internalComment":null,"objectMetaboliteCompound.conceptId":null,"objectMetaboliteCompound.enantiomerOfId":null,"objectMetaboliteCompound.concept.conceptId":null,"objectMetaboliteCompound.concept.conceptName":null,"objectMetaboliteCompound.concept.domainId":null,"objectMetaboliteCompound.concept.vocabularyId":null,"objectMetaboliteCompound.concept.conceptClassId":null,"objectMetaboliteCompound.concept.standardConcept":null,"objectMetaboliteCompound.concept.conceptCode":null,"objectMetaboliteCompound.concept.validStartDate":null,"objectMetaboliteCompound.concept.validEndDate":null,"objectMetaboliteCompound.concept.invalid_reason":null,"enzymes.id":null,"enzymes.name":null,"enzymes.conceptId":null,"enzymes.experiment_enzyme_xref.enzymeId":null,"enzymes.experiment_enzyme_xref.experimentId":null,"transporters.id":null,"transporters.name":null,"transporters.conceptId":null,"transporters.experiment_transporter_xref.experimentId":null,"transporters.experiment_transporter_xref.transporterId":null,"quantifiedMetabolites.id":239,"quantifiedMetabolites.name":"glycyrrhetinic acid","quantifiedMetabolites.unii":null,"quantifiedMetabolites.inChIKey":"MPDGHEJMBKOTSU-PMTKVOBESA-N","quantifiedMetabolites.publicDescription":null,"quantifiedMetabolites.internalComment":null,"quantifiedMetabolites.conceptId":null,"quantifiedMetabolites.enantiomerOfId":null,"quantifiedMetabolites.experiment_quantified_metabolite_xref.com":239,"quantifiedMetabolites.experiment_quantified_metabolite_xref.exp":776,"study.id":155,"study.uid":"NPDI-Lm3PvA","study.name":"Cytochrome P450 inhibition by licorice species Glycyrrhiza uralensis and fourteen licorice constituents","study.napdiIdentifier":null,"study.overallSummary":"

The potential of licorice dietary supplements to interact with drug metabolism was evaluated by testing extracts of botanically identified licorice species Glycyrrhiza uralensis and 14 isolated licorice compounds for inhibition of 9 cytochrome P450 enzymes using a UHPLC-MS/MS cocktail assay. G. uralensis strongly inhibited CYP2B6 and moderately inhibited CYP2C8, CYP2C9 and CYP2C19. The licorice compounds isoliquiritigenin, licoricidin, licochalcone A, 18β-glycyrrhetinic acid, and glycycoumarin inhibited one or more members of the CYP2C family of enzymes. Glycycoumarin and licochalcone A inhibited CYP1A2, but only glycycoumarin inhibited CYP2B6. Isoliquiritigenin, glabridin and licoricidin competitively inhibited CYP3A4. The licorice species commonly used in botanical dietary supplements have varying potential for drug-botanical interactions as inhibitors of cytochrome P450 isoforms. Each species of licorice displays a unique profile of constituents with potential for drug interactions.

","study.pubmedId":28774812,"study.embaseId":null,"study.croIdentifier":"UIC","study.croInformation":"UIC","study.dateStart":"2017-03-22T00:00:00.000Z","study.dateEnd":"2017-07-30T00:00:00.000Z","study.internalComment":null,"study.status":"published","study.compoundId":null,"study.naturalProductUid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProductSampleId":null,"study.studySourceTypeId":1,"study.naturalProduct.uid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProduct.binomial":"Glycyrrhiza uralensis","study.naturalProduct.name":"Licorice","study.naturalProduct.itis":null,"study.naturalProduct.srs":"dc6f848b-18bb-4620-81b1-b2af39721bd9","study.naturalProduct.source_id":"","study.naturalProduct.conceptId":null,"study.naturalProduct.concept.conceptId":null,"study.naturalProduct.concept.conceptName":null,"study.naturalProduct.concept.domainId":null,"study.naturalProduct.concept.vocabularyId":null,"study.naturalProduct.concept.conceptClassId":null,"study.naturalProduct.concept.standardConcept":null,"study.naturalProduct.concept.conceptCode":null,"study.naturalProduct.concept.validStartDate":null,"study.naturalProduct.concept.validEndDate":null,"study.naturalProduct.concept.invalid_reason":null,"study.compound.id":null,"study.compound.name":null,"study.compound.unii":null,"study.compound.inChIKey":null,"study.compound.publicDescription":null,"study.compound.internalComment":null,"study.compound.conceptId":null,"study.compound.enantiomerOfId":null,"study.studySourceType.id":1,"study.studySourceType.name":"Published report","testSystem.id":null,"testSystem.name":null,"testSystem.sortOrder":null,"testSystem.conceptId":null,"testSystem.categoryId":null,"testSystem.category.id":null,"testSystem.category.name":null,"testSystem.category.sortOrder":null,"testSystem.category.requiresCytochromeB5":null,"cytochromeB5.id":null,"cytochromeB5.name":null,"cytochromeB5.sortOrder":null,"cytochromeB5.conceptId":null,"controlDataExperiment.id":null,"controlDataExperiment.uid":null,"controlDataExperiment.name":null,"controlDataExperiment.overallEffect":null,"controlDataExperiment.isControlData":null,"controlDataExperiment.isIc50Shift":null,"controlDataExperiment.croCutoff":null,"controlDataExperiment.croIdentifier":null,"controlDataExperiment.comment":null,"controlDataExperiment.experimentalConditionsComment":null,"controlDataExperiment.resultsComment":null,"controlDataExperiment.internalComment":null,"controlDataExperiment.objectCompoundId":null,"controlDataExperiment.objectMetaboliteCompoundId":null,"controlDataExperiment.precipitantCompoundId":null,"controlDataExperiment.cytochromeB5Id":null,"controlDataExperiment.studyId":null,"controlDataExperiment.experimentTypeId":null,"controlDataExperiment.testSystemId":null,"controlDataExperiment.ic50ShiftExperimentId":null,"controlDataExperiment.controlDataExperimentId":null,"controlDataExperiment.controlDataForExperimentId":null,"controlDataExperiment.naturalProductSampleId":null,"controlDataExperiment.experimentType.id":null,"controlDataExperiment.experimentType.name":null,"controlDataExperiment.experimentType.isInVitro":null,"controlDataExperiment.experimentType.isTransporter":null,"controlDataExperiment.experimentType.isEnzyme":null,"controlDataExperiment.experimentType.purl":null,"controlDataExperiment.objectCompound.id":null,"controlDataExperiment.objectCompound.name":null,"controlDataExperiment.objectCompound.unii":null,"controlDataExperiment.objectCompound.inChIKey":null,"controlDataExperiment.objectCompound.publicDescription":null,"controlDataExperiment.objectCompound.internalComment":null,"controlDataExperiment.objectCompound.conceptId":null,"controlDataExperiment.objectCompound.enantiomerOfId":null,"controlDataExperiment.precipitantCompound.id":null,"controlDataExperiment.precipitantCompound.name":null,"controlDataExperiment.precipitantCompound.unii":null,"controlDataExperiment.precipitantCompound.inChIKey":null,"controlDataExperiment.precipitantCompound.publicDescription":null,"controlDataExperiment.precipitantCompound.internalComment":null,"controlDataExperiment.precipitantCompound.conceptId":null,"controlDataExperiment.precipitantCompound.enantiomerOfId":null,"controlDataExperiment.objectMetaboliteCompound.id":null,"controlDataExperiment.objectMetaboliteCompound.name":null,"controlDataExperiment.objectMetaboliteCompound.unii":null,"controlDataExperiment.objectMetaboliteCompound.inChIKey":null,"controlDataExperiment.objectMetaboliteCompound.publicDescriptio":null,"controlDataExperiment.objectMetaboliteCompound.internalComment":null,"controlDataExperiment.objectMetaboliteCompound.conceptId":null,"controlDataExperiment.objectMetaboliteCompound.enantiomerOfId":null,"controlDataExperiment.enzymes.id":null,"controlDataExperiment.enzymes.name":null,"controlDataExperiment.enzymes.conceptId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.enzymeId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.experiment":null,"controlDataExperiment.transporters.id":null,"controlDataExperiment.transporters.name":null,"controlDataExperiment.transporters.conceptId":null,"controlDataExperiment.transporters.experiment_transporter_xref.":null,"controlDataExperiment.quantifiedMetabolites.id":null,"controlDataExperiment.quantifiedMetabolites.name":null,"controlDataExperiment.quantifiedMetabolites.unii":null,"controlDataExperiment.quantifiedMetabolites.inChIKey":null,"controlDataExperiment.quantifiedMetabolites.publicDescription":null,"controlDataExperiment.quantifiedMetabolites.internalComment":null,"controlDataExperiment.quantifiedMetabolites.conceptId":null,"controlDataExperiment.quantifiedMetabolites.enantiomerOfId":null,"controlDataExperiment.quantifiedMetabolites.experiment_quantifi":null,"experimentAnswers.id":14139,"experimentAnswers.text":"UHPLC-MS/MS","experimentAnswers.answerId":null,"experimentAnswers.experimentId":776,"experimentAnswers.questionId":1113,"experimentAnswers.question.id":1113,"experimentAnswers.question.text":"Mass spectrometry instrument used","experimentAnswers.question.required":false,"experimentAnswers.question.maxAnswers":1,"experimentAnswers.question.type":"STRING","experimentAnswers.question.conceptId":null,"experimentAnswers.question.answers.id":null,"experimentAnswers.question.answers.text":null,"experimentAnswers.question.answers.sortOrder":null,"experimentAnswers.question.answers.conceptId":null,"experimentAnswers.question.answers.questionId":null,"experimentAnswers.answer.id":null,"experimentAnswers.answer.text":null,"experimentAnswers.answer.sortOrder":null,"experimentAnswers.answer.conceptId":null,"experimentAnswers.answer.questionId":null},{"id":776,"uid":"NPDI-ebe-GA","name":"Chemical characterization of Licorice, Glycyrrhiza uralensis","overallEffect":0,"isControlData":false,"isIc50Shift":false,"croCutoff":null,"croIdentifier":null,"comment":null,"experimentalConditionsComment":null,"resultsComment":"% weight compound/weight extract

glabridin, licochalcone a had quantities of 0 and were excluded from the results","internalComment":null,"objectCompoundId":null,"objectMetaboliteCompoundId":null,"precipitantCompoundId":null,"cytochromeB5Id":null,"studyId":155,"experimentTypeId":10,"testSystemId":null,"ic50ShiftExperimentId":null,"controlDataExperimentId":null,"controlDataForExperimentId":null,"naturalProductSampleId":null,"experimentType.id":10,"experimentType.name":"Characterization of Material","experimentType.isInVitro":false,"experimentType.isTransporter":false,"experimentType.isEnzyme":false,"experimentType.purl":"http://purl.obolibrary.org/obo/DIDEO_00005004","objectCompound.id":null,"objectCompound.name":null,"objectCompound.unii":null,"objectCompound.inChIKey":null,"objectCompound.publicDescription":null,"objectCompound.internalComment":null,"objectCompound.conceptId":null,"objectCompound.enantiomerOfId":null,"objectCompound.concept.conceptId":null,"objectCompound.concept.conceptName":null,"objectCompound.concept.domainId":null,"objectCompound.concept.vocabularyId":null,"objectCompound.concept.conceptClassId":null,"objectCompound.concept.standardConcept":null,"objectCompound.concept.conceptCode":null,"objectCompound.concept.validStartDate":null,"objectCompound.concept.validEndDate":null,"objectCompound.concept.invalid_reason":null,"precipitantCompound.id":null,"precipitantCompound.name":null,"precipitantCompound.unii":null,"precipitantCompound.inChIKey":null,"precipitantCompound.publicDescription":null,"precipitantCompound.internalComment":null,"precipitantCompound.conceptId":null,"precipitantCompound.enantiomerOfId":null,"precipitantCompound.concept.conceptId":null,"precipitantCompound.concept.conceptName":null,"precipitantCompound.concept.domainId":null,"precipitantCompound.concept.vocabularyId":null,"precipitantCompound.concept.conceptClassId":null,"precipitantCompound.concept.standardConcept":null,"precipitantCompound.concept.conceptCode":null,"precipitantCompound.concept.validStartDate":null,"precipitantCompound.concept.validEndDate":null,"precipitantCompound.concept.invalid_reason":null,"objectMetaboliteCompound.id":null,"objectMetaboliteCompound.name":null,"objectMetaboliteCompound.unii":null,"objectMetaboliteCompound.inChIKey":null,"objectMetaboliteCompound.publicDescription":null,"objectMetaboliteCompound.internalComment":null,"objectMetaboliteCompound.conceptId":null,"objectMetaboliteCompound.enantiomerOfId":null,"objectMetaboliteCompound.concept.conceptId":null,"objectMetaboliteCompound.concept.conceptName":null,"objectMetaboliteCompound.concept.domainId":null,"objectMetaboliteCompound.concept.vocabularyId":null,"objectMetaboliteCompound.concept.conceptClassId":null,"objectMetaboliteCompound.concept.standardConcept":null,"objectMetaboliteCompound.concept.conceptCode":null,"objectMetaboliteCompound.concept.validStartDate":null,"objectMetaboliteCompound.concept.validEndDate":null,"objectMetaboliteCompound.concept.invalid_reason":null,"enzymes.id":null,"enzymes.name":null,"enzymes.conceptId":null,"enzymes.experiment_enzyme_xref.enzymeId":null,"enzymes.experiment_enzyme_xref.experimentId":null,"transporters.id":null,"transporters.name":null,"transporters.conceptId":null,"transporters.experiment_transporter_xref.experimentId":null,"transporters.experiment_transporter_xref.transporterId":null,"quantifiedMetabolites.id":236,"quantifiedMetabolites.name":"glycyrrhizin","quantifiedMetabolites.unii":null,"quantifiedMetabolites.inChIKey":"LPLVUJXQOOQHMX-QWBHMCJMSA-N","quantifiedMetabolites.publicDescription":null,"quantifiedMetabolites.internalComment":null,"quantifiedMetabolites.conceptId":null,"quantifiedMetabolites.enantiomerOfId":null,"quantifiedMetabolites.experiment_quantified_metabolite_xref.com":236,"quantifiedMetabolites.experiment_quantified_metabolite_xref.exp":776,"study.id":155,"study.uid":"NPDI-Lm3PvA","study.name":"Cytochrome P450 inhibition by licorice species Glycyrrhiza uralensis and fourteen licorice constituents","study.napdiIdentifier":null,"study.overallSummary":"

The potential of licorice dietary supplements to interact with drug metabolism was evaluated by testing extracts of botanically identified licorice species Glycyrrhiza uralensis and 14 isolated licorice compounds for inhibition of 9 cytochrome P450 enzymes using a UHPLC-MS/MS cocktail assay. G. uralensis strongly inhibited CYP2B6 and moderately inhibited CYP2C8, CYP2C9 and CYP2C19. The licorice compounds isoliquiritigenin, licoricidin, licochalcone A, 18β-glycyrrhetinic acid, and glycycoumarin inhibited one or more members of the CYP2C family of enzymes. Glycycoumarin and licochalcone A inhibited CYP1A2, but only glycycoumarin inhibited CYP2B6. Isoliquiritigenin, glabridin and licoricidin competitively inhibited CYP3A4. The licorice species commonly used in botanical dietary supplements have varying potential for drug-botanical interactions as inhibitors of cytochrome P450 isoforms. Each species of licorice displays a unique profile of constituents with potential for drug interactions.

","study.pubmedId":28774812,"study.embaseId":null,"study.croIdentifier":"UIC","study.croInformation":"UIC","study.dateStart":"2017-03-22T00:00:00.000Z","study.dateEnd":"2017-07-30T00:00:00.000Z","study.internalComment":null,"study.status":"published","study.compoundId":null,"study.naturalProductUid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProductSampleId":null,"study.studySourceTypeId":1,"study.naturalProduct.uid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProduct.binomial":"Glycyrrhiza uralensis","study.naturalProduct.name":"Licorice","study.naturalProduct.itis":null,"study.naturalProduct.srs":"dc6f848b-18bb-4620-81b1-b2af39721bd9","study.naturalProduct.source_id":"","study.naturalProduct.conceptId":null,"study.naturalProduct.concept.conceptId":null,"study.naturalProduct.concept.conceptName":null,"study.naturalProduct.concept.domainId":null,"study.naturalProduct.concept.vocabularyId":null,"study.naturalProduct.concept.conceptClassId":null,"study.naturalProduct.concept.standardConcept":null,"study.naturalProduct.concept.conceptCode":null,"study.naturalProduct.concept.validStartDate":null,"study.naturalProduct.concept.validEndDate":null,"study.naturalProduct.concept.invalid_reason":null,"study.compound.id":null,"study.compound.name":null,"study.compound.unii":null,"study.compound.inChIKey":null,"study.compound.publicDescription":null,"study.compound.internalComment":null,"study.compound.conceptId":null,"study.compound.enantiomerOfId":null,"study.studySourceType.id":1,"study.studySourceType.name":"Published report","testSystem.id":null,"testSystem.name":null,"testSystem.sortOrder":null,"testSystem.conceptId":null,"testSystem.categoryId":null,"testSystem.category.id":null,"testSystem.category.name":null,"testSystem.category.sortOrder":null,"testSystem.category.requiresCytochromeB5":null,"cytochromeB5.id":null,"cytochromeB5.name":null,"cytochromeB5.sortOrder":null,"cytochromeB5.conceptId":null,"controlDataExperiment.id":null,"controlDataExperiment.uid":null,"controlDataExperiment.name":null,"controlDataExperiment.overallEffect":null,"controlDataExperiment.isControlData":null,"controlDataExperiment.isIc50Shift":null,"controlDataExperiment.croCutoff":null,"controlDataExperiment.croIdentifier":null,"controlDataExperiment.comment":null,"controlDataExperiment.experimentalConditionsComment":null,"controlDataExperiment.resultsComment":null,"controlDataExperiment.internalComment":null,"controlDataExperiment.objectCompoundId":null,"controlDataExperiment.objectMetaboliteCompoundId":null,"controlDataExperiment.precipitantCompoundId":null,"controlDataExperiment.cytochromeB5Id":null,"controlDataExperiment.studyId":null,"controlDataExperiment.experimentTypeId":null,"controlDataExperiment.testSystemId":null,"controlDataExperiment.ic50ShiftExperimentId":null,"controlDataExperiment.controlDataExperimentId":null,"controlDataExperiment.controlDataForExperimentId":null,"controlDataExperiment.naturalProductSampleId":null,"controlDataExperiment.experimentType.id":null,"controlDataExperiment.experimentType.name":null,"controlDataExperiment.experimentType.isInVitro":null,"controlDataExperiment.experimentType.isTransporter":null,"controlDataExperiment.experimentType.isEnzyme":null,"controlDataExperiment.experimentType.purl":null,"controlDataExperiment.objectCompound.id":null,"controlDataExperiment.objectCompound.name":null,"controlDataExperiment.objectCompound.unii":null,"controlDataExperiment.objectCompound.inChIKey":null,"controlDataExperiment.objectCompound.publicDescription":null,"controlDataExperiment.objectCompound.internalComment":null,"controlDataExperiment.objectCompound.conceptId":null,"controlDataExperiment.objectCompound.enantiomerOfId":null,"controlDataExperiment.precipitantCompound.id":null,"controlDataExperiment.precipitantCompound.name":null,"controlDataExperiment.precipitantCompound.unii":null,"controlDataExperiment.precipitantCompound.inChIKey":null,"controlDataExperiment.precipitantCompound.publicDescription":null,"controlDataExperiment.precipitantCompound.internalComment":null,"controlDataExperiment.precipitantCompound.conceptId":null,"controlDataExperiment.precipitantCompound.enantiomerOfId":null,"controlDataExperiment.objectMetaboliteCompound.id":null,"controlDataExperiment.objectMetaboliteCompound.name":null,"controlDataExperiment.objectMetaboliteCompound.unii":null,"controlDataExperiment.objectMetaboliteCompound.inChIKey":null,"controlDataExperiment.objectMetaboliteCompound.publicDescriptio":null,"controlDataExperiment.objectMetaboliteCompound.internalComment":null,"controlDataExperiment.objectMetaboliteCompound.conceptId":null,"controlDataExperiment.objectMetaboliteCompound.enantiomerOfId":null,"controlDataExperiment.enzymes.id":null,"controlDataExperiment.enzymes.name":null,"controlDataExperiment.enzymes.conceptId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.enzymeId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.experiment":null,"controlDataExperiment.transporters.id":null,"controlDataExperiment.transporters.name":null,"controlDataExperiment.transporters.conceptId":null,"controlDataExperiment.transporters.experiment_transporter_xref.":null,"controlDataExperiment.quantifiedMetabolites.id":null,"controlDataExperiment.quantifiedMetabolites.name":null,"controlDataExperiment.quantifiedMetabolites.unii":null,"controlDataExperiment.quantifiedMetabolites.inChIKey":null,"controlDataExperiment.quantifiedMetabolites.publicDescription":null,"controlDataExperiment.quantifiedMetabolites.internalComment":null,"controlDataExperiment.quantifiedMetabolites.conceptId":null,"controlDataExperiment.quantifiedMetabolites.enantiomerOfId":null,"controlDataExperiment.quantifiedMetabolites.experiment_quantifi":null,"experimentAnswers.id":14137,"experimentAnswers.text":"ethanol, isopropanol, water (90:5:5, v/v/v)","experimentAnswers.answerId":null,"experimentAnswers.experimentId":776,"experimentAnswers.questionId":1104,"experimentAnswers.question.id":1104,"experimentAnswers.question.text":"Solvent used","experimentAnswers.question.required":false,"experimentAnswers.question.maxAnswers":1,"experimentAnswers.question.type":"STRING","experimentAnswers.question.conceptId":null,"experimentAnswers.question.answers.id":null,"experimentAnswers.question.answers.text":null,"experimentAnswers.question.answers.sortOrder":null,"experimentAnswers.question.answers.conceptId":null,"experimentAnswers.question.answers.questionId":null,"experimentAnswers.answer.id":null,"experimentAnswers.answer.text":null,"experimentAnswers.answer.sortOrder":null,"experimentAnswers.answer.conceptId":null,"experimentAnswers.answer.questionId":null},{"id":776,"uid":"NPDI-ebe-GA","name":"Chemical characterization of Licorice, Glycyrrhiza uralensis","overallEffect":0,"isControlData":false,"isIc50Shift":false,"croCutoff":null,"croIdentifier":null,"comment":null,"experimentalConditionsComment":null,"resultsComment":"% weight compound/weight extract

glabridin, licochalcone a had quantities of 0 and were excluded from the results","internalComment":null,"objectCompoundId":null,"objectMetaboliteCompoundId":null,"precipitantCompoundId":null,"cytochromeB5Id":null,"studyId":155,"experimentTypeId":10,"testSystemId":null,"ic50ShiftExperimentId":null,"controlDataExperimentId":null,"controlDataForExperimentId":null,"naturalProductSampleId":null,"experimentType.id":10,"experimentType.name":"Characterization of Material","experimentType.isInVitro":false,"experimentType.isTransporter":false,"experimentType.isEnzyme":false,"experimentType.purl":"http://purl.obolibrary.org/obo/DIDEO_00005004","objectCompound.id":null,"objectCompound.name":null,"objectCompound.unii":null,"objectCompound.inChIKey":null,"objectCompound.publicDescription":null,"objectCompound.internalComment":null,"objectCompound.conceptId":null,"objectCompound.enantiomerOfId":null,"objectCompound.concept.conceptId":null,"objectCompound.concept.conceptName":null,"objectCompound.concept.domainId":null,"objectCompound.concept.vocabularyId":null,"objectCompound.concept.conceptClassId":null,"objectCompound.concept.standardConcept":null,"objectCompound.concept.conceptCode":null,"objectCompound.concept.validStartDate":null,"objectCompound.concept.validEndDate":null,"objectCompound.concept.invalid_reason":null,"precipitantCompound.id":null,"precipitantCompound.name":null,"precipitantCompound.unii":null,"precipitantCompound.inChIKey":null,"precipitantCompound.publicDescription":null,"precipitantCompound.internalComment":null,"precipitantCompound.conceptId":null,"precipitantCompound.enantiomerOfId":null,"precipitantCompound.concept.conceptId":null,"precipitantCompound.concept.conceptName":null,"precipitantCompound.concept.domainId":null,"precipitantCompound.concept.vocabularyId":null,"precipitantCompound.concept.conceptClassId":null,"precipitantCompound.concept.standardConcept":null,"precipitantCompound.concept.conceptCode":null,"precipitantCompound.concept.validStartDate":null,"precipitantCompound.concept.validEndDate":null,"precipitantCompound.concept.invalid_reason":null,"objectMetaboliteCompound.id":null,"objectMetaboliteCompound.name":null,"objectMetaboliteCompound.unii":null,"objectMetaboliteCompound.inChIKey":null,"objectMetaboliteCompound.publicDescription":null,"objectMetaboliteCompound.internalComment":null,"objectMetaboliteCompound.conceptId":null,"objectMetaboliteCompound.enantiomerOfId":null,"objectMetaboliteCompound.concept.conceptId":null,"objectMetaboliteCompound.concept.conceptName":null,"objectMetaboliteCompound.concept.domainId":null,"objectMetaboliteCompound.concept.vocabularyId":null,"objectMetaboliteCompound.concept.conceptClassId":null,"objectMetaboliteCompound.concept.standardConcept":null,"objectMetaboliteCompound.concept.conceptCode":null,"objectMetaboliteCompound.concept.validStartDate":null,"objectMetaboliteCompound.concept.validEndDate":null,"objectMetaboliteCompound.concept.invalid_reason":null,"enzymes.id":null,"enzymes.name":null,"enzymes.conceptId":null,"enzymes.experiment_enzyme_xref.enzymeId":null,"enzymes.experiment_enzyme_xref.experimentId":null,"transporters.id":null,"transporters.name":null,"transporters.conceptId":null,"transporters.experiment_transporter_xref.experimentId":null,"transporters.experiment_transporter_xref.transporterId":null,"quantifiedMetabolites.id":236,"quantifiedMetabolites.name":"glycyrrhizin","quantifiedMetabolites.unii":null,"quantifiedMetabolites.inChIKey":"LPLVUJXQOOQHMX-QWBHMCJMSA-N","quantifiedMetabolites.publicDescription":null,"quantifiedMetabolites.internalComment":null,"quantifiedMetabolites.conceptId":null,"quantifiedMetabolites.enantiomerOfId":null,"quantifiedMetabolites.experiment_quantified_metabolite_xref.com":236,"quantifiedMetabolites.experiment_quantified_metabolite_xref.exp":776,"study.id":155,"study.uid":"NPDI-Lm3PvA","study.name":"Cytochrome P450 inhibition by licorice species Glycyrrhiza uralensis and fourteen licorice constituents","study.napdiIdentifier":null,"study.overallSummary":"

The potential of licorice dietary supplements to interact with drug metabolism was evaluated by testing extracts of botanically identified licorice species Glycyrrhiza uralensis and 14 isolated licorice compounds for inhibition of 9 cytochrome P450 enzymes using a UHPLC-MS/MS cocktail assay. G. uralensis strongly inhibited CYP2B6 and moderately inhibited CYP2C8, CYP2C9 and CYP2C19. The licorice compounds isoliquiritigenin, licoricidin, licochalcone A, 18β-glycyrrhetinic acid, and glycycoumarin inhibited one or more members of the CYP2C family of enzymes. Glycycoumarin and licochalcone A inhibited CYP1A2, but only glycycoumarin inhibited CYP2B6. Isoliquiritigenin, glabridin and licoricidin competitively inhibited CYP3A4. The licorice species commonly used in botanical dietary supplements have varying potential for drug-botanical interactions as inhibitors of cytochrome P450 isoforms. Each species of licorice displays a unique profile of constituents with potential for drug interactions.

","study.pubmedId":28774812,"study.embaseId":null,"study.croIdentifier":"UIC","study.croInformation":"UIC","study.dateStart":"2017-03-22T00:00:00.000Z","study.dateEnd":"2017-07-30T00:00:00.000Z","study.internalComment":null,"study.status":"published","study.compoundId":null,"study.naturalProductUid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProductSampleId":null,"study.studySourceTypeId":1,"study.naturalProduct.uid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProduct.binomial":"Glycyrrhiza uralensis","study.naturalProduct.name":"Licorice","study.naturalProduct.itis":null,"study.naturalProduct.srs":"dc6f848b-18bb-4620-81b1-b2af39721bd9","study.naturalProduct.source_id":"","study.naturalProduct.conceptId":null,"study.naturalProduct.concept.conceptId":null,"study.naturalProduct.concept.conceptName":null,"study.naturalProduct.concept.domainId":null,"study.naturalProduct.concept.vocabularyId":null,"study.naturalProduct.concept.conceptClassId":null,"study.naturalProduct.concept.standardConcept":null,"study.naturalProduct.concept.conceptCode":null,"study.naturalProduct.concept.validStartDate":null,"study.naturalProduct.concept.validEndDate":null,"study.naturalProduct.concept.invalid_reason":null,"study.compound.id":null,"study.compound.name":null,"study.compound.unii":null,"study.compound.inChIKey":null,"study.compound.publicDescription":null,"study.compound.internalComment":null,"study.compound.conceptId":null,"study.compound.enantiomerOfId":null,"study.studySourceType.id":1,"study.studySourceType.name":"Published report","testSystem.id":null,"testSystem.name":null,"testSystem.sortOrder":null,"testSystem.conceptId":null,"testSystem.categoryId":null,"testSystem.category.id":null,"testSystem.category.name":null,"testSystem.category.sortOrder":null,"testSystem.category.requiresCytochromeB5":null,"cytochromeB5.id":null,"cytochromeB5.name":null,"cytochromeB5.sortOrder":null,"cytochromeB5.conceptId":null,"controlDataExperiment.id":null,"controlDataExperiment.uid":null,"controlDataExperiment.name":null,"controlDataExperiment.overallEffect":null,"controlDataExperiment.isControlData":null,"controlDataExperiment.isIc50Shift":null,"controlDataExperiment.croCutoff":null,"controlDataExperiment.croIdentifier":null,"controlDataExperiment.comment":null,"controlDataExperiment.experimentalConditionsComment":null,"controlDataExperiment.resultsComment":null,"controlDataExperiment.internalComment":null,"controlDataExperiment.objectCompoundId":null,"controlDataExperiment.objectMetaboliteCompoundId":null,"controlDataExperiment.precipitantCompoundId":null,"controlDataExperiment.cytochromeB5Id":null,"controlDataExperiment.studyId":null,"controlDataExperiment.experimentTypeId":null,"controlDataExperiment.testSystemId":null,"controlDataExperiment.ic50ShiftExperimentId":null,"controlDataExperiment.controlDataExperimentId":null,"controlDataExperiment.controlDataForExperimentId":null,"controlDataExperiment.naturalProductSampleId":null,"controlDataExperiment.experimentType.id":null,"controlDataExperiment.experimentType.name":null,"controlDataExperiment.experimentType.isInVitro":null,"controlDataExperiment.experimentType.isTransporter":null,"controlDataExperiment.experimentType.isEnzyme":null,"controlDataExperiment.experimentType.purl":null,"controlDataExperiment.objectCompound.id":null,"controlDataExperiment.objectCompound.name":null,"controlDataExperiment.objectCompound.unii":null,"controlDataExperiment.objectCompound.inChIKey":null,"controlDataExperiment.objectCompound.publicDescription":null,"controlDataExperiment.objectCompound.internalComment":null,"controlDataExperiment.objectCompound.conceptId":null,"controlDataExperiment.objectCompound.enantiomerOfId":null,"controlDataExperiment.precipitantCompound.id":null,"controlDataExperiment.precipitantCompound.name":null,"controlDataExperiment.precipitantCompound.unii":null,"controlDataExperiment.precipitantCompound.inChIKey":null,"controlDataExperiment.precipitantCompound.publicDescription":null,"controlDataExperiment.precipitantCompound.internalComment":null,"controlDataExperiment.precipitantCompound.conceptId":null,"controlDataExperiment.precipitantCompound.enantiomerOfId":null,"controlDataExperiment.objectMetaboliteCompound.id":null,"controlDataExperiment.objectMetaboliteCompound.name":null,"controlDataExperiment.objectMetaboliteCompound.unii":null,"controlDataExperiment.objectMetaboliteCompound.inChIKey":null,"controlDataExperiment.objectMetaboliteCompound.publicDescriptio":null,"controlDataExperiment.objectMetaboliteCompound.internalComment":null,"controlDataExperiment.objectMetaboliteCompound.conceptId":null,"controlDataExperiment.objectMetaboliteCompound.enantiomerOfId":null,"controlDataExperiment.enzymes.id":null,"controlDataExperiment.enzymes.name":null,"controlDataExperiment.enzymes.conceptId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.enzymeId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.experiment":null,"controlDataExperiment.transporters.id":null,"controlDataExperiment.transporters.name":null,"controlDataExperiment.transporters.conceptId":null,"controlDataExperiment.transporters.experiment_transporter_xref.":null,"controlDataExperiment.quantifiedMetabolites.id":null,"controlDataExperiment.quantifiedMetabolites.name":null,"controlDataExperiment.quantifiedMetabolites.unii":null,"controlDataExperiment.quantifiedMetabolites.inChIKey":null,"controlDataExperiment.quantifiedMetabolites.publicDescription":null,"controlDataExperiment.quantifiedMetabolites.internalComment":null,"controlDataExperiment.quantifiedMetabolites.conceptId":null,"controlDataExperiment.quantifiedMetabolites.enantiomerOfId":null,"controlDataExperiment.quantifiedMetabolites.experiment_quantifi":null,"experimentAnswers.id":14138,"experimentAnswers.text":"species checked with DNA barcoding, and comparison with voucher specimens at the Field Museum of Natural History, Chicago.","experimentAnswers.answerId":null,"experimentAnswers.experimentId":776,"experimentAnswers.questionId":1106,"experimentAnswers.question.id":1106,"experimentAnswers.question.text":"Material preparation additional information","experimentAnswers.question.required":false,"experimentAnswers.question.maxAnswers":1,"experimentAnswers.question.type":"TEXT","experimentAnswers.question.conceptId":null,"experimentAnswers.question.answers.id":null,"experimentAnswers.question.answers.text":null,"experimentAnswers.question.answers.sortOrder":null,"experimentAnswers.question.answers.conceptId":null,"experimentAnswers.question.answers.questionId":null,"experimentAnswers.answer.id":null,"experimentAnswers.answer.text":null,"experimentAnswers.answer.sortOrder":null,"experimentAnswers.answer.conceptId":null,"experimentAnswers.answer.questionId":null},{"id":776,"uid":"NPDI-ebe-GA","name":"Chemical characterization of Licorice, Glycyrrhiza uralensis","overallEffect":0,"isControlData":false,"isIc50Shift":false,"croCutoff":null,"croIdentifier":null,"comment":null,"experimentalConditionsComment":null,"resultsComment":"% weight compound/weight extract

glabridin, licochalcone a had quantities of 0 and were excluded from the results","internalComment":null,"objectCompoundId":null,"objectMetaboliteCompoundId":null,"precipitantCompoundId":null,"cytochromeB5Id":null,"studyId":155,"experimentTypeId":10,"testSystemId":null,"ic50ShiftExperimentId":null,"controlDataExperimentId":null,"controlDataForExperimentId":null,"naturalProductSampleId":null,"experimentType.id":10,"experimentType.name":"Characterization of Material","experimentType.isInVitro":false,"experimentType.isTransporter":false,"experimentType.isEnzyme":false,"experimentType.purl":"http://purl.obolibrary.org/obo/DIDEO_00005004","objectCompound.id":null,"objectCompound.name":null,"objectCompound.unii":null,"objectCompound.inChIKey":null,"objectCompound.publicDescription":null,"objectCompound.internalComment":null,"objectCompound.conceptId":null,"objectCompound.enantiomerOfId":null,"objectCompound.concept.conceptId":null,"objectCompound.concept.conceptName":null,"objectCompound.concept.domainId":null,"objectCompound.concept.vocabularyId":null,"objectCompound.concept.conceptClassId":null,"objectCompound.concept.standardConcept":null,"objectCompound.concept.conceptCode":null,"objectCompound.concept.validStartDate":null,"objectCompound.concept.validEndDate":null,"objectCompound.concept.invalid_reason":null,"precipitantCompound.id":null,"precipitantCompound.name":null,"precipitantCompound.unii":null,"precipitantCompound.inChIKey":null,"precipitantCompound.publicDescription":null,"precipitantCompound.internalComment":null,"precipitantCompound.conceptId":null,"precipitantCompound.enantiomerOfId":null,"precipitantCompound.concept.conceptId":null,"precipitantCompound.concept.conceptName":null,"precipitantCompound.concept.domainId":null,"precipitantCompound.concept.vocabularyId":null,"precipitantCompound.concept.conceptClassId":null,"precipitantCompound.concept.standardConcept":null,"precipitantCompound.concept.conceptCode":null,"precipitantCompound.concept.validStartDate":null,"precipitantCompound.concept.validEndDate":null,"precipitantCompound.concept.invalid_reason":null,"objectMetaboliteCompound.id":null,"objectMetaboliteCompound.name":null,"objectMetaboliteCompound.unii":null,"objectMetaboliteCompound.inChIKey":null,"objectMetaboliteCompound.publicDescription":null,"objectMetaboliteCompound.internalComment":null,"objectMetaboliteCompound.conceptId":null,"objectMetaboliteCompound.enantiomerOfId":null,"objectMetaboliteCompound.concept.conceptId":null,"objectMetaboliteCompound.concept.conceptName":null,"objectMetaboliteCompound.concept.domainId":null,"objectMetaboliteCompound.concept.vocabularyId":null,"objectMetaboliteCompound.concept.conceptClassId":null,"objectMetaboliteCompound.concept.standardConcept":null,"objectMetaboliteCompound.concept.conceptCode":null,"objectMetaboliteCompound.concept.validStartDate":null,"objectMetaboliteCompound.concept.validEndDate":null,"objectMetaboliteCompound.concept.invalid_reason":null,"enzymes.id":null,"enzymes.name":null,"enzymes.conceptId":null,"enzymes.experiment_enzyme_xref.enzymeId":null,"enzymes.experiment_enzyme_xref.experimentId":null,"transporters.id":null,"transporters.name":null,"transporters.conceptId":null,"transporters.experiment_transporter_xref.experimentId":null,"transporters.experiment_transporter_xref.transporterId":null,"quantifiedMetabolites.id":236,"quantifiedMetabolites.name":"glycyrrhizin","quantifiedMetabolites.unii":null,"quantifiedMetabolites.inChIKey":"LPLVUJXQOOQHMX-QWBHMCJMSA-N","quantifiedMetabolites.publicDescription":null,"quantifiedMetabolites.internalComment":null,"quantifiedMetabolites.conceptId":null,"quantifiedMetabolites.enantiomerOfId":null,"quantifiedMetabolites.experiment_quantified_metabolite_xref.com":236,"quantifiedMetabolites.experiment_quantified_metabolite_xref.exp":776,"study.id":155,"study.uid":"NPDI-Lm3PvA","study.name":"Cytochrome P450 inhibition by licorice species Glycyrrhiza uralensis and fourteen licorice constituents","study.napdiIdentifier":null,"study.overallSummary":"

The potential of licorice dietary supplements to interact with drug metabolism was evaluated by testing extracts of botanically identified licorice species Glycyrrhiza uralensis and 14 isolated licorice compounds for inhibition of 9 cytochrome P450 enzymes using a UHPLC-MS/MS cocktail assay. G. uralensis strongly inhibited CYP2B6 and moderately inhibited CYP2C8, CYP2C9 and CYP2C19. The licorice compounds isoliquiritigenin, licoricidin, licochalcone A, 18β-glycyrrhetinic acid, and glycycoumarin inhibited one or more members of the CYP2C family of enzymes. Glycycoumarin and licochalcone A inhibited CYP1A2, but only glycycoumarin inhibited CYP2B6. Isoliquiritigenin, glabridin and licoricidin competitively inhibited CYP3A4. The licorice species commonly used in botanical dietary supplements have varying potential for drug-botanical interactions as inhibitors of cytochrome P450 isoforms. Each species of licorice displays a unique profile of constituents with potential for drug interactions.

","study.pubmedId":28774812,"study.embaseId":null,"study.croIdentifier":"UIC","study.croInformation":"UIC","study.dateStart":"2017-03-22T00:00:00.000Z","study.dateEnd":"2017-07-30T00:00:00.000Z","study.internalComment":null,"study.status":"published","study.compoundId":null,"study.naturalProductUid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProductSampleId":null,"study.studySourceTypeId":1,"study.naturalProduct.uid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProduct.binomial":"Glycyrrhiza uralensis","study.naturalProduct.name":"Licorice","study.naturalProduct.itis":null,"study.naturalProduct.srs":"dc6f848b-18bb-4620-81b1-b2af39721bd9","study.naturalProduct.source_id":"","study.naturalProduct.conceptId":null,"study.naturalProduct.concept.conceptId":null,"study.naturalProduct.concept.conceptName":null,"study.naturalProduct.concept.domainId":null,"study.naturalProduct.concept.vocabularyId":null,"study.naturalProduct.concept.conceptClassId":null,"study.naturalProduct.concept.standardConcept":null,"study.naturalProduct.concept.conceptCode":null,"study.naturalProduct.concept.validStartDate":null,"study.naturalProduct.concept.validEndDate":null,"study.naturalProduct.concept.invalid_reason":null,"study.compound.id":null,"study.compound.name":null,"study.compound.unii":null,"study.compound.inChIKey":null,"study.compound.publicDescription":null,"study.compound.internalComment":null,"study.compound.conceptId":null,"study.compound.enantiomerOfId":null,"study.studySourceType.id":1,"study.studySourceType.name":"Published report","testSystem.id":null,"testSystem.name":null,"testSystem.sortOrder":null,"testSystem.conceptId":null,"testSystem.categoryId":null,"testSystem.category.id":null,"testSystem.category.name":null,"testSystem.category.sortOrder":null,"testSystem.category.requiresCytochromeB5":null,"cytochromeB5.id":null,"cytochromeB5.name":null,"cytochromeB5.sortOrder":null,"cytochromeB5.conceptId":null,"controlDataExperiment.id":null,"controlDataExperiment.uid":null,"controlDataExperiment.name":null,"controlDataExperiment.overallEffect":null,"controlDataExperiment.isControlData":null,"controlDataExperiment.isIc50Shift":null,"controlDataExperiment.croCutoff":null,"controlDataExperiment.croIdentifier":null,"controlDataExperiment.comment":null,"controlDataExperiment.experimentalConditionsComment":null,"controlDataExperiment.resultsComment":null,"controlDataExperiment.internalComment":null,"controlDataExperiment.objectCompoundId":null,"controlDataExperiment.objectMetaboliteCompoundId":null,"controlDataExperiment.precipitantCompoundId":null,"controlDataExperiment.cytochromeB5Id":null,"controlDataExperiment.studyId":null,"controlDataExperiment.experimentTypeId":null,"controlDataExperiment.testSystemId":null,"controlDataExperiment.ic50ShiftExperimentId":null,"controlDataExperiment.controlDataExperimentId":null,"controlDataExperiment.controlDataForExperimentId":null,"controlDataExperiment.naturalProductSampleId":null,"controlDataExperiment.experimentType.id":null,"controlDataExperiment.experimentType.name":null,"controlDataExperiment.experimentType.isInVitro":null,"controlDataExperiment.experimentType.isTransporter":null,"controlDataExperiment.experimentType.isEnzyme":null,"controlDataExperiment.experimentType.purl":null,"controlDataExperiment.objectCompound.id":null,"controlDataExperiment.objectCompound.name":null,"controlDataExperiment.objectCompound.unii":null,"controlDataExperiment.objectCompound.inChIKey":null,"controlDataExperiment.objectCompound.publicDescription":null,"controlDataExperiment.objectCompound.internalComment":null,"controlDataExperiment.objectCompound.conceptId":null,"controlDataExperiment.objectCompound.enantiomerOfId":null,"controlDataExperiment.precipitantCompound.id":null,"controlDataExperiment.precipitantCompound.name":null,"controlDataExperiment.precipitantCompound.unii":null,"controlDataExperiment.precipitantCompound.inChIKey":null,"controlDataExperiment.precipitantCompound.publicDescription":null,"controlDataExperiment.precipitantCompound.internalComment":null,"controlDataExperiment.precipitantCompound.conceptId":null,"controlDataExperiment.precipitantCompound.enantiomerOfId":null,"controlDataExperiment.objectMetaboliteCompound.id":null,"controlDataExperiment.objectMetaboliteCompound.name":null,"controlDataExperiment.objectMetaboliteCompound.unii":null,"controlDataExperiment.objectMetaboliteCompound.inChIKey":null,"controlDataExperiment.objectMetaboliteCompound.publicDescriptio":null,"controlDataExperiment.objectMetaboliteCompound.internalComment":null,"controlDataExperiment.objectMetaboliteCompound.conceptId":null,"controlDataExperiment.objectMetaboliteCompound.enantiomerOfId":null,"controlDataExperiment.enzymes.id":null,"controlDataExperiment.enzymes.name":null,"controlDataExperiment.enzymes.conceptId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.enzymeId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.experiment":null,"controlDataExperiment.transporters.id":null,"controlDataExperiment.transporters.name":null,"controlDataExperiment.transporters.conceptId":null,"controlDataExperiment.transporters.experiment_transporter_xref.":null,"controlDataExperiment.quantifiedMetabolites.id":null,"controlDataExperiment.quantifiedMetabolites.name":null,"controlDataExperiment.quantifiedMetabolites.unii":null,"controlDataExperiment.quantifiedMetabolites.inChIKey":null,"controlDataExperiment.quantifiedMetabolites.publicDescription":null,"controlDataExperiment.quantifiedMetabolites.internalComment":null,"controlDataExperiment.quantifiedMetabolites.conceptId":null,"controlDataExperiment.quantifiedMetabolites.enantiomerOfId":null,"controlDataExperiment.quantifiedMetabolites.experiment_quantifi":null,"experimentAnswers.id":14139,"experimentAnswers.text":"UHPLC-MS/MS","experimentAnswers.answerId":null,"experimentAnswers.experimentId":776,"experimentAnswers.questionId":1113,"experimentAnswers.question.id":1113,"experimentAnswers.question.text":"Mass spectrometry instrument used","experimentAnswers.question.required":false,"experimentAnswers.question.maxAnswers":1,"experimentAnswers.question.type":"STRING","experimentAnswers.question.conceptId":null,"experimentAnswers.question.answers.id":null,"experimentAnswers.question.answers.text":null,"experimentAnswers.question.answers.sortOrder":null,"experimentAnswers.question.answers.conceptId":null,"experimentAnswers.question.answers.questionId":null,"experimentAnswers.answer.id":null,"experimentAnswers.answer.text":null,"experimentAnswers.answer.sortOrder":null,"experimentAnswers.answer.conceptId":null,"experimentAnswers.answer.questionId":null},{"id":776,"uid":"NPDI-ebe-GA","name":"Chemical characterization of Licorice, Glycyrrhiza uralensis","overallEffect":0,"isControlData":false,"isIc50Shift":false,"croCutoff":null,"croIdentifier":null,"comment":null,"experimentalConditionsComment":null,"resultsComment":"% weight compound/weight extract

glabridin, licochalcone a had quantities of 0 and were excluded from the results","internalComment":null,"objectCompoundId":null,"objectMetaboliteCompoundId":null,"precipitantCompoundId":null,"cytochromeB5Id":null,"studyId":155,"experimentTypeId":10,"testSystemId":null,"ic50ShiftExperimentId":null,"controlDataExperimentId":null,"controlDataForExperimentId":null,"naturalProductSampleId":null,"experimentType.id":10,"experimentType.name":"Characterization of Material","experimentType.isInVitro":false,"experimentType.isTransporter":false,"experimentType.isEnzyme":false,"experimentType.purl":"http://purl.obolibrary.org/obo/DIDEO_00005004","objectCompound.id":null,"objectCompound.name":null,"objectCompound.unii":null,"objectCompound.inChIKey":null,"objectCompound.publicDescription":null,"objectCompound.internalComment":null,"objectCompound.conceptId":null,"objectCompound.enantiomerOfId":null,"objectCompound.concept.conceptId":null,"objectCompound.concept.conceptName":null,"objectCompound.concept.domainId":null,"objectCompound.concept.vocabularyId":null,"objectCompound.concept.conceptClassId":null,"objectCompound.concept.standardConcept":null,"objectCompound.concept.conceptCode":null,"objectCompound.concept.validStartDate":null,"objectCompound.concept.validEndDate":null,"objectCompound.concept.invalid_reason":null,"precipitantCompound.id":null,"precipitantCompound.name":null,"precipitantCompound.unii":null,"precipitantCompound.inChIKey":null,"precipitantCompound.publicDescription":null,"precipitantCompound.internalComment":null,"precipitantCompound.conceptId":null,"precipitantCompound.enantiomerOfId":null,"precipitantCompound.concept.conceptId":null,"precipitantCompound.concept.conceptName":null,"precipitantCompound.concept.domainId":null,"precipitantCompound.concept.vocabularyId":null,"precipitantCompound.concept.conceptClassId":null,"precipitantCompound.concept.standardConcept":null,"precipitantCompound.concept.conceptCode":null,"precipitantCompound.concept.validStartDate":null,"precipitantCompound.concept.validEndDate":null,"precipitantCompound.concept.invalid_reason":null,"objectMetaboliteCompound.id":null,"objectMetaboliteCompound.name":null,"objectMetaboliteCompound.unii":null,"objectMetaboliteCompound.inChIKey":null,"objectMetaboliteCompound.publicDescription":null,"objectMetaboliteCompound.internalComment":null,"objectMetaboliteCompound.conceptId":null,"objectMetaboliteCompound.enantiomerOfId":null,"objectMetaboliteCompound.concept.conceptId":null,"objectMetaboliteCompound.concept.conceptName":null,"objectMetaboliteCompound.concept.domainId":null,"objectMetaboliteCompound.concept.vocabularyId":null,"objectMetaboliteCompound.concept.conceptClassId":null,"objectMetaboliteCompound.concept.standardConcept":null,"objectMetaboliteCompound.concept.conceptCode":null,"objectMetaboliteCompound.concept.validStartDate":null,"objectMetaboliteCompound.concept.validEndDate":null,"objectMetaboliteCompound.concept.invalid_reason":null,"enzymes.id":null,"enzymes.name":null,"enzymes.conceptId":null,"enzymes.experiment_enzyme_xref.enzymeId":null,"enzymes.experiment_enzyme_xref.experimentId":null,"transporters.id":null,"transporters.name":null,"transporters.conceptId":null,"transporters.experiment_transporter_xref.experimentId":null,"transporters.experiment_transporter_xref.transporterId":null,"quantifiedMetabolites.id":235,"quantifiedMetabolites.name":"isoliquiritigenin","quantifiedMetabolites.unii":null,"quantifiedMetabolites.inChIKey":"DXDRHHKMWQZJHT-FPYGCLRLSA-N","quantifiedMetabolites.publicDescription":null,"quantifiedMetabolites.internalComment":null,"quantifiedMetabolites.conceptId":null,"quantifiedMetabolites.enantiomerOfId":null,"quantifiedMetabolites.experiment_quantified_metabolite_xref.com":235,"quantifiedMetabolites.experiment_quantified_metabolite_xref.exp":776,"study.id":155,"study.uid":"NPDI-Lm3PvA","study.name":"Cytochrome P450 inhibition by licorice species Glycyrrhiza uralensis and fourteen licorice constituents","study.napdiIdentifier":null,"study.overallSummary":"

The potential of licorice dietary supplements to interact with drug metabolism was evaluated by testing extracts of botanically identified licorice species Glycyrrhiza uralensis and 14 isolated licorice compounds for inhibition of 9 cytochrome P450 enzymes using a UHPLC-MS/MS cocktail assay. G. uralensis strongly inhibited CYP2B6 and moderately inhibited CYP2C8, CYP2C9 and CYP2C19. The licorice compounds isoliquiritigenin, licoricidin, licochalcone A, 18β-glycyrrhetinic acid, and glycycoumarin inhibited one or more members of the CYP2C family of enzymes. Glycycoumarin and licochalcone A inhibited CYP1A2, but only glycycoumarin inhibited CYP2B6. Isoliquiritigenin, glabridin and licoricidin competitively inhibited CYP3A4. The licorice species commonly used in botanical dietary supplements have varying potential for drug-botanical interactions as inhibitors of cytochrome P450 isoforms. Each species of licorice displays a unique profile of constituents with potential for drug interactions.

","study.pubmedId":28774812,"study.embaseId":null,"study.croIdentifier":"UIC","study.croInformation":"UIC","study.dateStart":"2017-03-22T00:00:00.000Z","study.dateEnd":"2017-07-30T00:00:00.000Z","study.internalComment":null,"study.status":"published","study.compoundId":null,"study.naturalProductUid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProductSampleId":null,"study.studySourceTypeId":1,"study.naturalProduct.uid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProduct.binomial":"Glycyrrhiza uralensis","study.naturalProduct.name":"Licorice","study.naturalProduct.itis":null,"study.naturalProduct.srs":"dc6f848b-18bb-4620-81b1-b2af39721bd9","study.naturalProduct.source_id":"","study.naturalProduct.conceptId":null,"study.naturalProduct.concept.conceptId":null,"study.naturalProduct.concept.conceptName":null,"study.naturalProduct.concept.domainId":null,"study.naturalProduct.concept.vocabularyId":null,"study.naturalProduct.concept.conceptClassId":null,"study.naturalProduct.concept.standardConcept":null,"study.naturalProduct.concept.conceptCode":null,"study.naturalProduct.concept.validStartDate":null,"study.naturalProduct.concept.validEndDate":null,"study.naturalProduct.concept.invalid_reason":null,"study.compound.id":null,"study.compound.name":null,"study.compound.unii":null,"study.compound.inChIKey":null,"study.compound.publicDescription":null,"study.compound.internalComment":null,"study.compound.conceptId":null,"study.compound.enantiomerOfId":null,"study.studySourceType.id":1,"study.studySourceType.name":"Published report","testSystem.id":null,"testSystem.name":null,"testSystem.sortOrder":null,"testSystem.conceptId":null,"testSystem.categoryId":null,"testSystem.category.id":null,"testSystem.category.name":null,"testSystem.category.sortOrder":null,"testSystem.category.requiresCytochromeB5":null,"cytochromeB5.id":null,"cytochromeB5.name":null,"cytochromeB5.sortOrder":null,"cytochromeB5.conceptId":null,"controlDataExperiment.id":null,"controlDataExperiment.uid":null,"controlDataExperiment.name":null,"controlDataExperiment.overallEffect":null,"controlDataExperiment.isControlData":null,"controlDataExperiment.isIc50Shift":null,"controlDataExperiment.croCutoff":null,"controlDataExperiment.croIdentifier":null,"controlDataExperiment.comment":null,"controlDataExperiment.experimentalConditionsComment":null,"controlDataExperiment.resultsComment":null,"controlDataExperiment.internalComment":null,"controlDataExperiment.objectCompoundId":null,"controlDataExperiment.objectMetaboliteCompoundId":null,"controlDataExperiment.precipitantCompoundId":null,"controlDataExperiment.cytochromeB5Id":null,"controlDataExperiment.studyId":null,"controlDataExperiment.experimentTypeId":null,"controlDataExperiment.testSystemId":null,"controlDataExperiment.ic50ShiftExperimentId":null,"controlDataExperiment.controlDataExperimentId":null,"controlDataExperiment.controlDataForExperimentId":null,"controlDataExperiment.naturalProductSampleId":null,"controlDataExperiment.experimentType.id":null,"controlDataExperiment.experimentType.name":null,"controlDataExperiment.experimentType.isInVitro":null,"controlDataExperiment.experimentType.isTransporter":null,"controlDataExperiment.experimentType.isEnzyme":null,"controlDataExperiment.experimentType.purl":null,"controlDataExperiment.objectCompound.id":null,"controlDataExperiment.objectCompound.name":null,"controlDataExperiment.objectCompound.unii":null,"controlDataExperiment.objectCompound.inChIKey":null,"controlDataExperiment.objectCompound.publicDescription":null,"controlDataExperiment.objectCompound.internalComment":null,"controlDataExperiment.objectCompound.conceptId":null,"controlDataExperiment.objectCompound.enantiomerOfId":null,"controlDataExperiment.precipitantCompound.id":null,"controlDataExperiment.precipitantCompound.name":null,"controlDataExperiment.precipitantCompound.unii":null,"controlDataExperiment.precipitantCompound.inChIKey":null,"controlDataExperiment.precipitantCompound.publicDescription":null,"controlDataExperiment.precipitantCompound.internalComment":null,"controlDataExperiment.precipitantCompound.conceptId":null,"controlDataExperiment.precipitantCompound.enantiomerOfId":null,"controlDataExperiment.objectMetaboliteCompound.id":null,"controlDataExperiment.objectMetaboliteCompound.name":null,"controlDataExperiment.objectMetaboliteCompound.unii":null,"controlDataExperiment.objectMetaboliteCompound.inChIKey":null,"controlDataExperiment.objectMetaboliteCompound.publicDescriptio":null,"controlDataExperiment.objectMetaboliteCompound.internalComment":null,"controlDataExperiment.objectMetaboliteCompound.conceptId":null,"controlDataExperiment.objectMetaboliteCompound.enantiomerOfId":null,"controlDataExperiment.enzymes.id":null,"controlDataExperiment.enzymes.name":null,"controlDataExperiment.enzymes.conceptId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.enzymeId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.experiment":null,"controlDataExperiment.transporters.id":null,"controlDataExperiment.transporters.name":null,"controlDataExperiment.transporters.conceptId":null,"controlDataExperiment.transporters.experiment_transporter_xref.":null,"controlDataExperiment.quantifiedMetabolites.id":null,"controlDataExperiment.quantifiedMetabolites.name":null,"controlDataExperiment.quantifiedMetabolites.unii":null,"controlDataExperiment.quantifiedMetabolites.inChIKey":null,"controlDataExperiment.quantifiedMetabolites.publicDescription":null,"controlDataExperiment.quantifiedMetabolites.internalComment":null,"controlDataExperiment.quantifiedMetabolites.conceptId":null,"controlDataExperiment.quantifiedMetabolites.enantiomerOfId":null,"controlDataExperiment.quantifiedMetabolites.experiment_quantifi":null,"experimentAnswers.id":14137,"experimentAnswers.text":"ethanol, isopropanol, water (90:5:5, v/v/v)","experimentAnswers.answerId":null,"experimentAnswers.experimentId":776,"experimentAnswers.questionId":1104,"experimentAnswers.question.id":1104,"experimentAnswers.question.text":"Solvent used","experimentAnswers.question.required":false,"experimentAnswers.question.maxAnswers":1,"experimentAnswers.question.type":"STRING","experimentAnswers.question.conceptId":null,"experimentAnswers.question.answers.id":null,"experimentAnswers.question.answers.text":null,"experimentAnswers.question.answers.sortOrder":null,"experimentAnswers.question.answers.conceptId":null,"experimentAnswers.question.answers.questionId":null,"experimentAnswers.answer.id":null,"experimentAnswers.answer.text":null,"experimentAnswers.answer.sortOrder":null,"experimentAnswers.answer.conceptId":null,"experimentAnswers.answer.questionId":null},{"id":776,"uid":"NPDI-ebe-GA","name":"Chemical characterization of Licorice, Glycyrrhiza uralensis","overallEffect":0,"isControlData":false,"isIc50Shift":false,"croCutoff":null,"croIdentifier":null,"comment":null,"experimentalConditionsComment":null,"resultsComment":"% weight compound/weight extract

glabridin, licochalcone a had quantities of 0 and were excluded from the results","internalComment":null,"objectCompoundId":null,"objectMetaboliteCompoundId":null,"precipitantCompoundId":null,"cytochromeB5Id":null,"studyId":155,"experimentTypeId":10,"testSystemId":null,"ic50ShiftExperimentId":null,"controlDataExperimentId":null,"controlDataForExperimentId":null,"naturalProductSampleId":null,"experimentType.id":10,"experimentType.name":"Characterization of Material","experimentType.isInVitro":false,"experimentType.isTransporter":false,"experimentType.isEnzyme":false,"experimentType.purl":"http://purl.obolibrary.org/obo/DIDEO_00005004","objectCompound.id":null,"objectCompound.name":null,"objectCompound.unii":null,"objectCompound.inChIKey":null,"objectCompound.publicDescription":null,"objectCompound.internalComment":null,"objectCompound.conceptId":null,"objectCompound.enantiomerOfId":null,"objectCompound.concept.conceptId":null,"objectCompound.concept.conceptName":null,"objectCompound.concept.domainId":null,"objectCompound.concept.vocabularyId":null,"objectCompound.concept.conceptClassId":null,"objectCompound.concept.standardConcept":null,"objectCompound.concept.conceptCode":null,"objectCompound.concept.validStartDate":null,"objectCompound.concept.validEndDate":null,"objectCompound.concept.invalid_reason":null,"precipitantCompound.id":null,"precipitantCompound.name":null,"precipitantCompound.unii":null,"precipitantCompound.inChIKey":null,"precipitantCompound.publicDescription":null,"precipitantCompound.internalComment":null,"precipitantCompound.conceptId":null,"precipitantCompound.enantiomerOfId":null,"precipitantCompound.concept.conceptId":null,"precipitantCompound.concept.conceptName":null,"precipitantCompound.concept.domainId":null,"precipitantCompound.concept.vocabularyId":null,"precipitantCompound.concept.conceptClassId":null,"precipitantCompound.concept.standardConcept":null,"precipitantCompound.concept.conceptCode":null,"precipitantCompound.concept.validStartDate":null,"precipitantCompound.concept.validEndDate":null,"precipitantCompound.concept.invalid_reason":null,"objectMetaboliteCompound.id":null,"objectMetaboliteCompound.name":null,"objectMetaboliteCompound.unii":null,"objectMetaboliteCompound.inChIKey":null,"objectMetaboliteCompound.publicDescription":null,"objectMetaboliteCompound.internalComment":null,"objectMetaboliteCompound.conceptId":null,"objectMetaboliteCompound.enantiomerOfId":null,"objectMetaboliteCompound.concept.conceptId":null,"objectMetaboliteCompound.concept.conceptName":null,"objectMetaboliteCompound.concept.domainId":null,"objectMetaboliteCompound.concept.vocabularyId":null,"objectMetaboliteCompound.concept.conceptClassId":null,"objectMetaboliteCompound.concept.standardConcept":null,"objectMetaboliteCompound.concept.conceptCode":null,"objectMetaboliteCompound.concept.validStartDate":null,"objectMetaboliteCompound.concept.validEndDate":null,"objectMetaboliteCompound.concept.invalid_reason":null,"enzymes.id":null,"enzymes.name":null,"enzymes.conceptId":null,"enzymes.experiment_enzyme_xref.enzymeId":null,"enzymes.experiment_enzyme_xref.experimentId":null,"transporters.id":null,"transporters.name":null,"transporters.conceptId":null,"transporters.experiment_transporter_xref.experimentId":null,"transporters.experiment_transporter_xref.transporterId":null,"quantifiedMetabolites.id":235,"quantifiedMetabolites.name":"isoliquiritigenin","quantifiedMetabolites.unii":null,"quantifiedMetabolites.inChIKey":"DXDRHHKMWQZJHT-FPYGCLRLSA-N","quantifiedMetabolites.publicDescription":null,"quantifiedMetabolites.internalComment":null,"quantifiedMetabolites.conceptId":null,"quantifiedMetabolites.enantiomerOfId":null,"quantifiedMetabolites.experiment_quantified_metabolite_xref.com":235,"quantifiedMetabolites.experiment_quantified_metabolite_xref.exp":776,"study.id":155,"study.uid":"NPDI-Lm3PvA","study.name":"Cytochrome P450 inhibition by licorice species Glycyrrhiza uralensis and fourteen licorice constituents","study.napdiIdentifier":null,"study.overallSummary":"

The potential of licorice dietary supplements to interact with drug metabolism was evaluated by testing extracts of botanically identified licorice species Glycyrrhiza uralensis and 14 isolated licorice compounds for inhibition of 9 cytochrome P450 enzymes using a UHPLC-MS/MS cocktail assay. G. uralensis strongly inhibited CYP2B6 and moderately inhibited CYP2C8, CYP2C9 and CYP2C19. The licorice compounds isoliquiritigenin, licoricidin, licochalcone A, 18β-glycyrrhetinic acid, and glycycoumarin inhibited one or more members of the CYP2C family of enzymes. Glycycoumarin and licochalcone A inhibited CYP1A2, but only glycycoumarin inhibited CYP2B6. Isoliquiritigenin, glabridin and licoricidin competitively inhibited CYP3A4. The licorice species commonly used in botanical dietary supplements have varying potential for drug-botanical interactions as inhibitors of cytochrome P450 isoforms. Each species of licorice displays a unique profile of constituents with potential for drug interactions.

","study.pubmedId":28774812,"study.embaseId":null,"study.croIdentifier":"UIC","study.croInformation":"UIC","study.dateStart":"2017-03-22T00:00:00.000Z","study.dateEnd":"2017-07-30T00:00:00.000Z","study.internalComment":null,"study.status":"published","study.compoundId":null,"study.naturalProductUid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProductSampleId":null,"study.studySourceTypeId":1,"study.naturalProduct.uid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProduct.binomial":"Glycyrrhiza uralensis","study.naturalProduct.name":"Licorice","study.naturalProduct.itis":null,"study.naturalProduct.srs":"dc6f848b-18bb-4620-81b1-b2af39721bd9","study.naturalProduct.source_id":"","study.naturalProduct.conceptId":null,"study.naturalProduct.concept.conceptId":null,"study.naturalProduct.concept.conceptName":null,"study.naturalProduct.concept.domainId":null,"study.naturalProduct.concept.vocabularyId":null,"study.naturalProduct.concept.conceptClassId":null,"study.naturalProduct.concept.standardConcept":null,"study.naturalProduct.concept.conceptCode":null,"study.naturalProduct.concept.validStartDate":null,"study.naturalProduct.concept.validEndDate":null,"study.naturalProduct.concept.invalid_reason":null,"study.compound.id":null,"study.compound.name":null,"study.compound.unii":null,"study.compound.inChIKey":null,"study.compound.publicDescription":null,"study.compound.internalComment":null,"study.compound.conceptId":null,"study.compound.enantiomerOfId":null,"study.studySourceType.id":1,"study.studySourceType.name":"Published report","testSystem.id":null,"testSystem.name":null,"testSystem.sortOrder":null,"testSystem.conceptId":null,"testSystem.categoryId":null,"testSystem.category.id":null,"testSystem.category.name":null,"testSystem.category.sortOrder":null,"testSystem.category.requiresCytochromeB5":null,"cytochromeB5.id":null,"cytochromeB5.name":null,"cytochromeB5.sortOrder":null,"cytochromeB5.conceptId":null,"controlDataExperiment.id":null,"controlDataExperiment.uid":null,"controlDataExperiment.name":null,"controlDataExperiment.overallEffect":null,"controlDataExperiment.isControlData":null,"controlDataExperiment.isIc50Shift":null,"controlDataExperiment.croCutoff":null,"controlDataExperiment.croIdentifier":null,"controlDataExperiment.comment":null,"controlDataExperiment.experimentalConditionsComment":null,"controlDataExperiment.resultsComment":null,"controlDataExperiment.internalComment":null,"controlDataExperiment.objectCompoundId":null,"controlDataExperiment.objectMetaboliteCompoundId":null,"controlDataExperiment.precipitantCompoundId":null,"controlDataExperiment.cytochromeB5Id":null,"controlDataExperiment.studyId":null,"controlDataExperiment.experimentTypeId":null,"controlDataExperiment.testSystemId":null,"controlDataExperiment.ic50ShiftExperimentId":null,"controlDataExperiment.controlDataExperimentId":null,"controlDataExperiment.controlDataForExperimentId":null,"controlDataExperiment.naturalProductSampleId":null,"controlDataExperiment.experimentType.id":null,"controlDataExperiment.experimentType.name":null,"controlDataExperiment.experimentType.isInVitro":null,"controlDataExperiment.experimentType.isTransporter":null,"controlDataExperiment.experimentType.isEnzyme":null,"controlDataExperiment.experimentType.purl":null,"controlDataExperiment.objectCompound.id":null,"controlDataExperiment.objectCompound.name":null,"controlDataExperiment.objectCompound.unii":null,"controlDataExperiment.objectCompound.inChIKey":null,"controlDataExperiment.objectCompound.publicDescription":null,"controlDataExperiment.objectCompound.internalComment":null,"controlDataExperiment.objectCompound.conceptId":null,"controlDataExperiment.objectCompound.enantiomerOfId":null,"controlDataExperiment.precipitantCompound.id":null,"controlDataExperiment.precipitantCompound.name":null,"controlDataExperiment.precipitantCompound.unii":null,"controlDataExperiment.precipitantCompound.inChIKey":null,"controlDataExperiment.precipitantCompound.publicDescription":null,"controlDataExperiment.precipitantCompound.internalComment":null,"controlDataExperiment.precipitantCompound.conceptId":null,"controlDataExperiment.precipitantCompound.enantiomerOfId":null,"controlDataExperiment.objectMetaboliteCompound.id":null,"controlDataExperiment.objectMetaboliteCompound.name":null,"controlDataExperiment.objectMetaboliteCompound.unii":null,"controlDataExperiment.objectMetaboliteCompound.inChIKey":null,"controlDataExperiment.objectMetaboliteCompound.publicDescriptio":null,"controlDataExperiment.objectMetaboliteCompound.internalComment":null,"controlDataExperiment.objectMetaboliteCompound.conceptId":null,"controlDataExperiment.objectMetaboliteCompound.enantiomerOfId":null,"controlDataExperiment.enzymes.id":null,"controlDataExperiment.enzymes.name":null,"controlDataExperiment.enzymes.conceptId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.enzymeId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.experiment":null,"controlDataExperiment.transporters.id":null,"controlDataExperiment.transporters.name":null,"controlDataExperiment.transporters.conceptId":null,"controlDataExperiment.transporters.experiment_transporter_xref.":null,"controlDataExperiment.quantifiedMetabolites.id":null,"controlDataExperiment.quantifiedMetabolites.name":null,"controlDataExperiment.quantifiedMetabolites.unii":null,"controlDataExperiment.quantifiedMetabolites.inChIKey":null,"controlDataExperiment.quantifiedMetabolites.publicDescription":null,"controlDataExperiment.quantifiedMetabolites.internalComment":null,"controlDataExperiment.quantifiedMetabolites.conceptId":null,"controlDataExperiment.quantifiedMetabolites.enantiomerOfId":null,"controlDataExperiment.quantifiedMetabolites.experiment_quantifi":null,"experimentAnswers.id":14138,"experimentAnswers.text":"species checked with DNA barcoding, and comparison with voucher specimens at the Field Museum of Natural History, Chicago.","experimentAnswers.answerId":null,"experimentAnswers.experimentId":776,"experimentAnswers.questionId":1106,"experimentAnswers.question.id":1106,"experimentAnswers.question.text":"Material preparation additional information","experimentAnswers.question.required":false,"experimentAnswers.question.maxAnswers":1,"experimentAnswers.question.type":"TEXT","experimentAnswers.question.conceptId":null,"experimentAnswers.question.answers.id":null,"experimentAnswers.question.answers.text":null,"experimentAnswers.question.answers.sortOrder":null,"experimentAnswers.question.answers.conceptId":null,"experimentAnswers.question.answers.questionId":null,"experimentAnswers.answer.id":null,"experimentAnswers.answer.text":null,"experimentAnswers.answer.sortOrder":null,"experimentAnswers.answer.conceptId":null,"experimentAnswers.answer.questionId":null},{"id":776,"uid":"NPDI-ebe-GA","name":"Chemical characterization of Licorice, Glycyrrhiza uralensis","overallEffect":0,"isControlData":false,"isIc50Shift":false,"croCutoff":null,"croIdentifier":null,"comment":null,"experimentalConditionsComment":null,"resultsComment":"% weight compound/weight extract

glabridin, licochalcone a had quantities of 0 and were excluded from the results","internalComment":null,"objectCompoundId":null,"objectMetaboliteCompoundId":null,"precipitantCompoundId":null,"cytochromeB5Id":null,"studyId":155,"experimentTypeId":10,"testSystemId":null,"ic50ShiftExperimentId":null,"controlDataExperimentId":null,"controlDataForExperimentId":null,"naturalProductSampleId":null,"experimentType.id":10,"experimentType.name":"Characterization of Material","experimentType.isInVitro":false,"experimentType.isTransporter":false,"experimentType.isEnzyme":false,"experimentType.purl":"http://purl.obolibrary.org/obo/DIDEO_00005004","objectCompound.id":null,"objectCompound.name":null,"objectCompound.unii":null,"objectCompound.inChIKey":null,"objectCompound.publicDescription":null,"objectCompound.internalComment":null,"objectCompound.conceptId":null,"objectCompound.enantiomerOfId":null,"objectCompound.concept.conceptId":null,"objectCompound.concept.conceptName":null,"objectCompound.concept.domainId":null,"objectCompound.concept.vocabularyId":null,"objectCompound.concept.conceptClassId":null,"objectCompound.concept.standardConcept":null,"objectCompound.concept.conceptCode":null,"objectCompound.concept.validStartDate":null,"objectCompound.concept.validEndDate":null,"objectCompound.concept.invalid_reason":null,"precipitantCompound.id":null,"precipitantCompound.name":null,"precipitantCompound.unii":null,"precipitantCompound.inChIKey":null,"precipitantCompound.publicDescription":null,"precipitantCompound.internalComment":null,"precipitantCompound.conceptId":null,"precipitantCompound.enantiomerOfId":null,"precipitantCompound.concept.conceptId":null,"precipitantCompound.concept.conceptName":null,"precipitantCompound.concept.domainId":null,"precipitantCompound.concept.vocabularyId":null,"precipitantCompound.concept.conceptClassId":null,"precipitantCompound.concept.standardConcept":null,"precipitantCompound.concept.conceptCode":null,"precipitantCompound.concept.validStartDate":null,"precipitantCompound.concept.validEndDate":null,"precipitantCompound.concept.invalid_reason":null,"objectMetaboliteCompound.id":null,"objectMetaboliteCompound.name":null,"objectMetaboliteCompound.unii":null,"objectMetaboliteCompound.inChIKey":null,"objectMetaboliteCompound.publicDescription":null,"objectMetaboliteCompound.internalComment":null,"objectMetaboliteCompound.conceptId":null,"objectMetaboliteCompound.enantiomerOfId":null,"objectMetaboliteCompound.concept.conceptId":null,"objectMetaboliteCompound.concept.conceptName":null,"objectMetaboliteCompound.concept.domainId":null,"objectMetaboliteCompound.concept.vocabularyId":null,"objectMetaboliteCompound.concept.conceptClassId":null,"objectMetaboliteCompound.concept.standardConcept":null,"objectMetaboliteCompound.concept.conceptCode":null,"objectMetaboliteCompound.concept.validStartDate":null,"objectMetaboliteCompound.concept.validEndDate":null,"objectMetaboliteCompound.concept.invalid_reason":null,"enzymes.id":null,"enzymes.name":null,"enzymes.conceptId":null,"enzymes.experiment_enzyme_xref.enzymeId":null,"enzymes.experiment_enzyme_xref.experimentId":null,"transporters.id":null,"transporters.name":null,"transporters.conceptId":null,"transporters.experiment_transporter_xref.experimentId":null,"transporters.experiment_transporter_xref.transporterId":null,"quantifiedMetabolites.id":235,"quantifiedMetabolites.name":"isoliquiritigenin","quantifiedMetabolites.unii":null,"quantifiedMetabolites.inChIKey":"DXDRHHKMWQZJHT-FPYGCLRLSA-N","quantifiedMetabolites.publicDescription":null,"quantifiedMetabolites.internalComment":null,"quantifiedMetabolites.conceptId":null,"quantifiedMetabolites.enantiomerOfId":null,"quantifiedMetabolites.experiment_quantified_metabolite_xref.com":235,"quantifiedMetabolites.experiment_quantified_metabolite_xref.exp":776,"study.id":155,"study.uid":"NPDI-Lm3PvA","study.name":"Cytochrome P450 inhibition by licorice species Glycyrrhiza uralensis and fourteen licorice constituents","study.napdiIdentifier":null,"study.overallSummary":"

The potential of licorice dietary supplements to interact with drug metabolism was evaluated by testing extracts of botanically identified licorice species Glycyrrhiza uralensis and 14 isolated licorice compounds for inhibition of 9 cytochrome P450 enzymes using a UHPLC-MS/MS cocktail assay. G. uralensis strongly inhibited CYP2B6 and moderately inhibited CYP2C8, CYP2C9 and CYP2C19. The licorice compounds isoliquiritigenin, licoricidin, licochalcone A, 18β-glycyrrhetinic acid, and glycycoumarin inhibited one or more members of the CYP2C family of enzymes. Glycycoumarin and licochalcone A inhibited CYP1A2, but only glycycoumarin inhibited CYP2B6. Isoliquiritigenin, glabridin and licoricidin competitively inhibited CYP3A4. The licorice species commonly used in botanical dietary supplements have varying potential for drug-botanical interactions as inhibitors of cytochrome P450 isoforms. Each species of licorice displays a unique profile of constituents with potential for drug interactions.

","study.pubmedId":28774812,"study.embaseId":null,"study.croIdentifier":"UIC","study.croInformation":"UIC","study.dateStart":"2017-03-22T00:00:00.000Z","study.dateEnd":"2017-07-30T00:00:00.000Z","study.internalComment":null,"study.status":"published","study.compoundId":null,"study.naturalProductUid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProductSampleId":null,"study.studySourceTypeId":1,"study.naturalProduct.uid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProduct.binomial":"Glycyrrhiza uralensis","study.naturalProduct.name":"Licorice","study.naturalProduct.itis":null,"study.naturalProduct.srs":"dc6f848b-18bb-4620-81b1-b2af39721bd9","study.naturalProduct.source_id":"","study.naturalProduct.conceptId":null,"study.naturalProduct.concept.conceptId":null,"study.naturalProduct.concept.conceptName":null,"study.naturalProduct.concept.domainId":null,"study.naturalProduct.concept.vocabularyId":null,"study.naturalProduct.concept.conceptClassId":null,"study.naturalProduct.concept.standardConcept":null,"study.naturalProduct.concept.conceptCode":null,"study.naturalProduct.concept.validStartDate":null,"study.naturalProduct.concept.validEndDate":null,"study.naturalProduct.concept.invalid_reason":null,"study.compound.id":null,"study.compound.name":null,"study.compound.unii":null,"study.compound.inChIKey":null,"study.compound.publicDescription":null,"study.compound.internalComment":null,"study.compound.conceptId":null,"study.compound.enantiomerOfId":null,"study.studySourceType.id":1,"study.studySourceType.name":"Published report","testSystem.id":null,"testSystem.name":null,"testSystem.sortOrder":null,"testSystem.conceptId":null,"testSystem.categoryId":null,"testSystem.category.id":null,"testSystem.category.name":null,"testSystem.category.sortOrder":null,"testSystem.category.requiresCytochromeB5":null,"cytochromeB5.id":null,"cytochromeB5.name":null,"cytochromeB5.sortOrder":null,"cytochromeB5.conceptId":null,"controlDataExperiment.id":null,"controlDataExperiment.uid":null,"controlDataExperiment.name":null,"controlDataExperiment.overallEffect":null,"controlDataExperiment.isControlData":null,"controlDataExperiment.isIc50Shift":null,"controlDataExperiment.croCutoff":null,"controlDataExperiment.croIdentifier":null,"controlDataExperiment.comment":null,"controlDataExperiment.experimentalConditionsComment":null,"controlDataExperiment.resultsComment":null,"controlDataExperiment.internalComment":null,"controlDataExperiment.objectCompoundId":null,"controlDataExperiment.objectMetaboliteCompoundId":null,"controlDataExperiment.precipitantCompoundId":null,"controlDataExperiment.cytochromeB5Id":null,"controlDataExperiment.studyId":null,"controlDataExperiment.experimentTypeId":null,"controlDataExperiment.testSystemId":null,"controlDataExperiment.ic50ShiftExperimentId":null,"controlDataExperiment.controlDataExperimentId":null,"controlDataExperiment.controlDataForExperimentId":null,"controlDataExperiment.naturalProductSampleId":null,"controlDataExperiment.experimentType.id":null,"controlDataExperiment.experimentType.name":null,"controlDataExperiment.experimentType.isInVitro":null,"controlDataExperiment.experimentType.isTransporter":null,"controlDataExperiment.experimentType.isEnzyme":null,"controlDataExperiment.experimentType.purl":null,"controlDataExperiment.objectCompound.id":null,"controlDataExperiment.objectCompound.name":null,"controlDataExperiment.objectCompound.unii":null,"controlDataExperiment.objectCompound.inChIKey":null,"controlDataExperiment.objectCompound.publicDescription":null,"controlDataExperiment.objectCompound.internalComment":null,"controlDataExperiment.objectCompound.conceptId":null,"controlDataExperiment.objectCompound.enantiomerOfId":null,"controlDataExperiment.precipitantCompound.id":null,"controlDataExperiment.precipitantCompound.name":null,"controlDataExperiment.precipitantCompound.unii":null,"controlDataExperiment.precipitantCompound.inChIKey":null,"controlDataExperiment.precipitantCompound.publicDescription":null,"controlDataExperiment.precipitantCompound.internalComment":null,"controlDataExperiment.precipitantCompound.conceptId":null,"controlDataExperiment.precipitantCompound.enantiomerOfId":null,"controlDataExperiment.objectMetaboliteCompound.id":null,"controlDataExperiment.objectMetaboliteCompound.name":null,"controlDataExperiment.objectMetaboliteCompound.unii":null,"controlDataExperiment.objectMetaboliteCompound.inChIKey":null,"controlDataExperiment.objectMetaboliteCompound.publicDescriptio":null,"controlDataExperiment.objectMetaboliteCompound.internalComment":null,"controlDataExperiment.objectMetaboliteCompound.conceptId":null,"controlDataExperiment.objectMetaboliteCompound.enantiomerOfId":null,"controlDataExperiment.enzymes.id":null,"controlDataExperiment.enzymes.name":null,"controlDataExperiment.enzymes.conceptId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.enzymeId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.experiment":null,"controlDataExperiment.transporters.id":null,"controlDataExperiment.transporters.name":null,"controlDataExperiment.transporters.conceptId":null,"controlDataExperiment.transporters.experiment_transporter_xref.":null,"controlDataExperiment.quantifiedMetabolites.id":null,"controlDataExperiment.quantifiedMetabolites.name":null,"controlDataExperiment.quantifiedMetabolites.unii":null,"controlDataExperiment.quantifiedMetabolites.inChIKey":null,"controlDataExperiment.quantifiedMetabolites.publicDescription":null,"controlDataExperiment.quantifiedMetabolites.internalComment":null,"controlDataExperiment.quantifiedMetabolites.conceptId":null,"controlDataExperiment.quantifiedMetabolites.enantiomerOfId":null,"controlDataExperiment.quantifiedMetabolites.experiment_quantifi":null,"experimentAnswers.id":14139,"experimentAnswers.text":"UHPLC-MS/MS","experimentAnswers.answerId":null,"experimentAnswers.experimentId":776,"experimentAnswers.questionId":1113,"experimentAnswers.question.id":1113,"experimentAnswers.question.text":"Mass spectrometry instrument used","experimentAnswers.question.required":false,"experimentAnswers.question.maxAnswers":1,"experimentAnswers.question.type":"STRING","experimentAnswers.question.conceptId":null,"experimentAnswers.question.answers.id":null,"experimentAnswers.question.answers.text":null,"experimentAnswers.question.answers.sortOrder":null,"experimentAnswers.question.answers.conceptId":null,"experimentAnswers.question.answers.questionId":null,"experimentAnswers.answer.id":null,"experimentAnswers.answer.text":null,"experimentAnswers.answer.sortOrder":null,"experimentAnswers.answer.conceptId":null,"experimentAnswers.answer.questionId":null},{"id":776,"uid":"NPDI-ebe-GA","name":"Chemical characterization of Licorice, Glycyrrhiza uralensis","overallEffect":0,"isControlData":false,"isIc50Shift":false,"croCutoff":null,"croIdentifier":null,"comment":null,"experimentalConditionsComment":null,"resultsComment":"% weight compound/weight extract

glabridin, licochalcone a had quantities of 0 and were excluded from the results","internalComment":null,"objectCompoundId":null,"objectMetaboliteCompoundId":null,"precipitantCompoundId":null,"cytochromeB5Id":null,"studyId":155,"experimentTypeId":10,"testSystemId":null,"ic50ShiftExperimentId":null,"controlDataExperimentId":null,"controlDataForExperimentId":null,"naturalProductSampleId":null,"experimentType.id":10,"experimentType.name":"Characterization of Material","experimentType.isInVitro":false,"experimentType.isTransporter":false,"experimentType.isEnzyme":false,"experimentType.purl":"http://purl.obolibrary.org/obo/DIDEO_00005004","objectCompound.id":null,"objectCompound.name":null,"objectCompound.unii":null,"objectCompound.inChIKey":null,"objectCompound.publicDescription":null,"objectCompound.internalComment":null,"objectCompound.conceptId":null,"objectCompound.enantiomerOfId":null,"objectCompound.concept.conceptId":null,"objectCompound.concept.conceptName":null,"objectCompound.concept.domainId":null,"objectCompound.concept.vocabularyId":null,"objectCompound.concept.conceptClassId":null,"objectCompound.concept.standardConcept":null,"objectCompound.concept.conceptCode":null,"objectCompound.concept.validStartDate":null,"objectCompound.concept.validEndDate":null,"objectCompound.concept.invalid_reason":null,"precipitantCompound.id":null,"precipitantCompound.name":null,"precipitantCompound.unii":null,"precipitantCompound.inChIKey":null,"precipitantCompound.publicDescription":null,"precipitantCompound.internalComment":null,"precipitantCompound.conceptId":null,"precipitantCompound.enantiomerOfId":null,"precipitantCompound.concept.conceptId":null,"precipitantCompound.concept.conceptName":null,"precipitantCompound.concept.domainId":null,"precipitantCompound.concept.vocabularyId":null,"precipitantCompound.concept.conceptClassId":null,"precipitantCompound.concept.standardConcept":null,"precipitantCompound.concept.conceptCode":null,"precipitantCompound.concept.validStartDate":null,"precipitantCompound.concept.validEndDate":null,"precipitantCompound.concept.invalid_reason":null,"objectMetaboliteCompound.id":null,"objectMetaboliteCompound.name":null,"objectMetaboliteCompound.unii":null,"objectMetaboliteCompound.inChIKey":null,"objectMetaboliteCompound.publicDescription":null,"objectMetaboliteCompound.internalComment":null,"objectMetaboliteCompound.conceptId":null,"objectMetaboliteCompound.enantiomerOfId":null,"objectMetaboliteCompound.concept.conceptId":null,"objectMetaboliteCompound.concept.conceptName":null,"objectMetaboliteCompound.concept.domainId":null,"objectMetaboliteCompound.concept.vocabularyId":null,"objectMetaboliteCompound.concept.conceptClassId":null,"objectMetaboliteCompound.concept.standardConcept":null,"objectMetaboliteCompound.concept.conceptCode":null,"objectMetaboliteCompound.concept.validStartDate":null,"objectMetaboliteCompound.concept.validEndDate":null,"objectMetaboliteCompound.concept.invalid_reason":null,"enzymes.id":null,"enzymes.name":null,"enzymes.conceptId":null,"enzymes.experiment_enzyme_xref.enzymeId":null,"enzymes.experiment_enzyme_xref.experimentId":null,"transporters.id":null,"transporters.name":null,"transporters.conceptId":null,"transporters.experiment_transporter_xref.experimentId":null,"transporters.experiment_transporter_xref.transporterId":null,"quantifiedMetabolites.id":234,"quantifiedMetabolites.name":"liquiritigenin","quantifiedMetabolites.unii":null,"quantifiedMetabolites.inChIKey":"FURUXTVZLHCCNA-AWEZNQCLSA-N","quantifiedMetabolites.publicDescription":null,"quantifiedMetabolites.internalComment":null,"quantifiedMetabolites.conceptId":null,"quantifiedMetabolites.enantiomerOfId":null,"quantifiedMetabolites.experiment_quantified_metabolite_xref.com":234,"quantifiedMetabolites.experiment_quantified_metabolite_xref.exp":776,"study.id":155,"study.uid":"NPDI-Lm3PvA","study.name":"Cytochrome P450 inhibition by licorice species Glycyrrhiza uralensis and fourteen licorice constituents","study.napdiIdentifier":null,"study.overallSummary":"

The potential of licorice dietary supplements to interact with drug metabolism was evaluated by testing extracts of botanically identified licorice species Glycyrrhiza uralensis and 14 isolated licorice compounds for inhibition of 9 cytochrome P450 enzymes using a UHPLC-MS/MS cocktail assay. G. uralensis strongly inhibited CYP2B6 and moderately inhibited CYP2C8, CYP2C9 and CYP2C19. The licorice compounds isoliquiritigenin, licoricidin, licochalcone A, 18β-glycyrrhetinic acid, and glycycoumarin inhibited one or more members of the CYP2C family of enzymes. Glycycoumarin and licochalcone A inhibited CYP1A2, but only glycycoumarin inhibited CYP2B6. Isoliquiritigenin, glabridin and licoricidin competitively inhibited CYP3A4. The licorice species commonly used in botanical dietary supplements have varying potential for drug-botanical interactions as inhibitors of cytochrome P450 isoforms. Each species of licorice displays a unique profile of constituents with potential for drug interactions.

","study.pubmedId":28774812,"study.embaseId":null,"study.croIdentifier":"UIC","study.croInformation":"UIC","study.dateStart":"2017-03-22T00:00:00.000Z","study.dateEnd":"2017-07-30T00:00:00.000Z","study.internalComment":null,"study.status":"published","study.compoundId":null,"study.naturalProductUid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProductSampleId":null,"study.studySourceTypeId":1,"study.naturalProduct.uid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProduct.binomial":"Glycyrrhiza uralensis","study.naturalProduct.name":"Licorice","study.naturalProduct.itis":null,"study.naturalProduct.srs":"dc6f848b-18bb-4620-81b1-b2af39721bd9","study.naturalProduct.source_id":"","study.naturalProduct.conceptId":null,"study.naturalProduct.concept.conceptId":null,"study.naturalProduct.concept.conceptName":null,"study.naturalProduct.concept.domainId":null,"study.naturalProduct.concept.vocabularyId":null,"study.naturalProduct.concept.conceptClassId":null,"study.naturalProduct.concept.standardConcept":null,"study.naturalProduct.concept.conceptCode":null,"study.naturalProduct.concept.validStartDate":null,"study.naturalProduct.concept.validEndDate":null,"study.naturalProduct.concept.invalid_reason":null,"study.compound.id":null,"study.compound.name":null,"study.compound.unii":null,"study.compound.inChIKey":null,"study.compound.publicDescription":null,"study.compound.internalComment":null,"study.compound.conceptId":null,"study.compound.enantiomerOfId":null,"study.studySourceType.id":1,"study.studySourceType.name":"Published report","testSystem.id":null,"testSystem.name":null,"testSystem.sortOrder":null,"testSystem.conceptId":null,"testSystem.categoryId":null,"testSystem.category.id":null,"testSystem.category.name":null,"testSystem.category.sortOrder":null,"testSystem.category.requiresCytochromeB5":null,"cytochromeB5.id":null,"cytochromeB5.name":null,"cytochromeB5.sortOrder":null,"cytochromeB5.conceptId":null,"controlDataExperiment.id":null,"controlDataExperiment.uid":null,"controlDataExperiment.name":null,"controlDataExperiment.overallEffect":null,"controlDataExperiment.isControlData":null,"controlDataExperiment.isIc50Shift":null,"controlDataExperiment.croCutoff":null,"controlDataExperiment.croIdentifier":null,"controlDataExperiment.comment":null,"controlDataExperiment.experimentalConditionsComment":null,"controlDataExperiment.resultsComment":null,"controlDataExperiment.internalComment":null,"controlDataExperiment.objectCompoundId":null,"controlDataExperiment.objectMetaboliteCompoundId":null,"controlDataExperiment.precipitantCompoundId":null,"controlDataExperiment.cytochromeB5Id":null,"controlDataExperiment.studyId":null,"controlDataExperiment.experimentTypeId":null,"controlDataExperiment.testSystemId":null,"controlDataExperiment.ic50ShiftExperimentId":null,"controlDataExperiment.controlDataExperimentId":null,"controlDataExperiment.controlDataForExperimentId":null,"controlDataExperiment.naturalProductSampleId":null,"controlDataExperiment.experimentType.id":null,"controlDataExperiment.experimentType.name":null,"controlDataExperiment.experimentType.isInVitro":null,"controlDataExperiment.experimentType.isTransporter":null,"controlDataExperiment.experimentType.isEnzyme":null,"controlDataExperiment.experimentType.purl":null,"controlDataExperiment.objectCompound.id":null,"controlDataExperiment.objectCompound.name":null,"controlDataExperiment.objectCompound.unii":null,"controlDataExperiment.objectCompound.inChIKey":null,"controlDataExperiment.objectCompound.publicDescription":null,"controlDataExperiment.objectCompound.internalComment":null,"controlDataExperiment.objectCompound.conceptId":null,"controlDataExperiment.objectCompound.enantiomerOfId":null,"controlDataExperiment.precipitantCompound.id":null,"controlDataExperiment.precipitantCompound.name":null,"controlDataExperiment.precipitantCompound.unii":null,"controlDataExperiment.precipitantCompound.inChIKey":null,"controlDataExperiment.precipitantCompound.publicDescription":null,"controlDataExperiment.precipitantCompound.internalComment":null,"controlDataExperiment.precipitantCompound.conceptId":null,"controlDataExperiment.precipitantCompound.enantiomerOfId":null,"controlDataExperiment.objectMetaboliteCompound.id":null,"controlDataExperiment.objectMetaboliteCompound.name":null,"controlDataExperiment.objectMetaboliteCompound.unii":null,"controlDataExperiment.objectMetaboliteCompound.inChIKey":null,"controlDataExperiment.objectMetaboliteCompound.publicDescriptio":null,"controlDataExperiment.objectMetaboliteCompound.internalComment":null,"controlDataExperiment.objectMetaboliteCompound.conceptId":null,"controlDataExperiment.objectMetaboliteCompound.enantiomerOfId":null,"controlDataExperiment.enzymes.id":null,"controlDataExperiment.enzymes.name":null,"controlDataExperiment.enzymes.conceptId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.enzymeId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.experiment":null,"controlDataExperiment.transporters.id":null,"controlDataExperiment.transporters.name":null,"controlDataExperiment.transporters.conceptId":null,"controlDataExperiment.transporters.experiment_transporter_xref.":null,"controlDataExperiment.quantifiedMetabolites.id":null,"controlDataExperiment.quantifiedMetabolites.name":null,"controlDataExperiment.quantifiedMetabolites.unii":null,"controlDataExperiment.quantifiedMetabolites.inChIKey":null,"controlDataExperiment.quantifiedMetabolites.publicDescription":null,"controlDataExperiment.quantifiedMetabolites.internalComment":null,"controlDataExperiment.quantifiedMetabolites.conceptId":null,"controlDataExperiment.quantifiedMetabolites.enantiomerOfId":null,"controlDataExperiment.quantifiedMetabolites.experiment_quantifi":null,"experimentAnswers.id":14137,"experimentAnswers.text":"ethanol, isopropanol, water (90:5:5, v/v/v)","experimentAnswers.answerId":null,"experimentAnswers.experimentId":776,"experimentAnswers.questionId":1104,"experimentAnswers.question.id":1104,"experimentAnswers.question.text":"Solvent used","experimentAnswers.question.required":false,"experimentAnswers.question.maxAnswers":1,"experimentAnswers.question.type":"STRING","experimentAnswers.question.conceptId":null,"experimentAnswers.question.answers.id":null,"experimentAnswers.question.answers.text":null,"experimentAnswers.question.answers.sortOrder":null,"experimentAnswers.question.answers.conceptId":null,"experimentAnswers.question.answers.questionId":null,"experimentAnswers.answer.id":null,"experimentAnswers.answer.text":null,"experimentAnswers.answer.sortOrder":null,"experimentAnswers.answer.conceptId":null,"experimentAnswers.answer.questionId":null},{"id":776,"uid":"NPDI-ebe-GA","name":"Chemical characterization of Licorice, Glycyrrhiza uralensis","overallEffect":0,"isControlData":false,"isIc50Shift":false,"croCutoff":null,"croIdentifier":null,"comment":null,"experimentalConditionsComment":null,"resultsComment":"% weight compound/weight extract

glabridin, licochalcone a had quantities of 0 and were excluded from the results","internalComment":null,"objectCompoundId":null,"objectMetaboliteCompoundId":null,"precipitantCompoundId":null,"cytochromeB5Id":null,"studyId":155,"experimentTypeId":10,"testSystemId":null,"ic50ShiftExperimentId":null,"controlDataExperimentId":null,"controlDataForExperimentId":null,"naturalProductSampleId":null,"experimentType.id":10,"experimentType.name":"Characterization of Material","experimentType.isInVitro":false,"experimentType.isTransporter":false,"experimentType.isEnzyme":false,"experimentType.purl":"http://purl.obolibrary.org/obo/DIDEO_00005004","objectCompound.id":null,"objectCompound.name":null,"objectCompound.unii":null,"objectCompound.inChIKey":null,"objectCompound.publicDescription":null,"objectCompound.internalComment":null,"objectCompound.conceptId":null,"objectCompound.enantiomerOfId":null,"objectCompound.concept.conceptId":null,"objectCompound.concept.conceptName":null,"objectCompound.concept.domainId":null,"objectCompound.concept.vocabularyId":null,"objectCompound.concept.conceptClassId":null,"objectCompound.concept.standardConcept":null,"objectCompound.concept.conceptCode":null,"objectCompound.concept.validStartDate":null,"objectCompound.concept.validEndDate":null,"objectCompound.concept.invalid_reason":null,"precipitantCompound.id":null,"precipitantCompound.name":null,"precipitantCompound.unii":null,"precipitantCompound.inChIKey":null,"precipitantCompound.publicDescription":null,"precipitantCompound.internalComment":null,"precipitantCompound.conceptId":null,"precipitantCompound.enantiomerOfId":null,"precipitantCompound.concept.conceptId":null,"precipitantCompound.concept.conceptName":null,"precipitantCompound.concept.domainId":null,"precipitantCompound.concept.vocabularyId":null,"precipitantCompound.concept.conceptClassId":null,"precipitantCompound.concept.standardConcept":null,"precipitantCompound.concept.conceptCode":null,"precipitantCompound.concept.validStartDate":null,"precipitantCompound.concept.validEndDate":null,"precipitantCompound.concept.invalid_reason":null,"objectMetaboliteCompound.id":null,"objectMetaboliteCompound.name":null,"objectMetaboliteCompound.unii":null,"objectMetaboliteCompound.inChIKey":null,"objectMetaboliteCompound.publicDescription":null,"objectMetaboliteCompound.internalComment":null,"objectMetaboliteCompound.conceptId":null,"objectMetaboliteCompound.enantiomerOfId":null,"objectMetaboliteCompound.concept.conceptId":null,"objectMetaboliteCompound.concept.conceptName":null,"objectMetaboliteCompound.concept.domainId":null,"objectMetaboliteCompound.concept.vocabularyId":null,"objectMetaboliteCompound.concept.conceptClassId":null,"objectMetaboliteCompound.concept.standardConcept":null,"objectMetaboliteCompound.concept.conceptCode":null,"objectMetaboliteCompound.concept.validStartDate":null,"objectMetaboliteCompound.concept.validEndDate":null,"objectMetaboliteCompound.concept.invalid_reason":null,"enzymes.id":null,"enzymes.name":null,"enzymes.conceptId":null,"enzymes.experiment_enzyme_xref.enzymeId":null,"enzymes.experiment_enzyme_xref.experimentId":null,"transporters.id":null,"transporters.name":null,"transporters.conceptId":null,"transporters.experiment_transporter_xref.experimentId":null,"transporters.experiment_transporter_xref.transporterId":null,"quantifiedMetabolites.id":234,"quantifiedMetabolites.name":"liquiritigenin","quantifiedMetabolites.unii":null,"quantifiedMetabolites.inChIKey":"FURUXTVZLHCCNA-AWEZNQCLSA-N","quantifiedMetabolites.publicDescription":null,"quantifiedMetabolites.internalComment":null,"quantifiedMetabolites.conceptId":null,"quantifiedMetabolites.enantiomerOfId":null,"quantifiedMetabolites.experiment_quantified_metabolite_xref.com":234,"quantifiedMetabolites.experiment_quantified_metabolite_xref.exp":776,"study.id":155,"study.uid":"NPDI-Lm3PvA","study.name":"Cytochrome P450 inhibition by licorice species Glycyrrhiza uralensis and fourteen licorice constituents","study.napdiIdentifier":null,"study.overallSummary":"

The potential of licorice dietary supplements to interact with drug metabolism was evaluated by testing extracts of botanically identified licorice species Glycyrrhiza uralensis and 14 isolated licorice compounds for inhibition of 9 cytochrome P450 enzymes using a UHPLC-MS/MS cocktail assay. G. uralensis strongly inhibited CYP2B6 and moderately inhibited CYP2C8, CYP2C9 and CYP2C19. The licorice compounds isoliquiritigenin, licoricidin, licochalcone A, 18β-glycyrrhetinic acid, and glycycoumarin inhibited one or more members of the CYP2C family of enzymes. Glycycoumarin and licochalcone A inhibited CYP1A2, but only glycycoumarin inhibited CYP2B6. Isoliquiritigenin, glabridin and licoricidin competitively inhibited CYP3A4. The licorice species commonly used in botanical dietary supplements have varying potential for drug-botanical interactions as inhibitors of cytochrome P450 isoforms. Each species of licorice displays a unique profile of constituents with potential for drug interactions.

","study.pubmedId":28774812,"study.embaseId":null,"study.croIdentifier":"UIC","study.croInformation":"UIC","study.dateStart":"2017-03-22T00:00:00.000Z","study.dateEnd":"2017-07-30T00:00:00.000Z","study.internalComment":null,"study.status":"published","study.compoundId":null,"study.naturalProductUid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProductSampleId":null,"study.studySourceTypeId":1,"study.naturalProduct.uid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProduct.binomial":"Glycyrrhiza uralensis","study.naturalProduct.name":"Licorice","study.naturalProduct.itis":null,"study.naturalProduct.srs":"dc6f848b-18bb-4620-81b1-b2af39721bd9","study.naturalProduct.source_id":"","study.naturalProduct.conceptId":null,"study.naturalProduct.concept.conceptId":null,"study.naturalProduct.concept.conceptName":null,"study.naturalProduct.concept.domainId":null,"study.naturalProduct.concept.vocabularyId":null,"study.naturalProduct.concept.conceptClassId":null,"study.naturalProduct.concept.standardConcept":null,"study.naturalProduct.concept.conceptCode":null,"study.naturalProduct.concept.validStartDate":null,"study.naturalProduct.concept.validEndDate":null,"study.naturalProduct.concept.invalid_reason":null,"study.compound.id":null,"study.compound.name":null,"study.compound.unii":null,"study.compound.inChIKey":null,"study.compound.publicDescription":null,"study.compound.internalComment":null,"study.compound.conceptId":null,"study.compound.enantiomerOfId":null,"study.studySourceType.id":1,"study.studySourceType.name":"Published report","testSystem.id":null,"testSystem.name":null,"testSystem.sortOrder":null,"testSystem.conceptId":null,"testSystem.categoryId":null,"testSystem.category.id":null,"testSystem.category.name":null,"testSystem.category.sortOrder":null,"testSystem.category.requiresCytochromeB5":null,"cytochromeB5.id":null,"cytochromeB5.name":null,"cytochromeB5.sortOrder":null,"cytochromeB5.conceptId":null,"controlDataExperiment.id":null,"controlDataExperiment.uid":null,"controlDataExperiment.name":null,"controlDataExperiment.overallEffect":null,"controlDataExperiment.isControlData":null,"controlDataExperiment.isIc50Shift":null,"controlDataExperiment.croCutoff":null,"controlDataExperiment.croIdentifier":null,"controlDataExperiment.comment":null,"controlDataExperiment.experimentalConditionsComment":null,"controlDataExperiment.resultsComment":null,"controlDataExperiment.internalComment":null,"controlDataExperiment.objectCompoundId":null,"controlDataExperiment.objectMetaboliteCompoundId":null,"controlDataExperiment.precipitantCompoundId":null,"controlDataExperiment.cytochromeB5Id":null,"controlDataExperiment.studyId":null,"controlDataExperiment.experimentTypeId":null,"controlDataExperiment.testSystemId":null,"controlDataExperiment.ic50ShiftExperimentId":null,"controlDataExperiment.controlDataExperimentId":null,"controlDataExperiment.controlDataForExperimentId":null,"controlDataExperiment.naturalProductSampleId":null,"controlDataExperiment.experimentType.id":null,"controlDataExperiment.experimentType.name":null,"controlDataExperiment.experimentType.isInVitro":null,"controlDataExperiment.experimentType.isTransporter":null,"controlDataExperiment.experimentType.isEnzyme":null,"controlDataExperiment.experimentType.purl":null,"controlDataExperiment.objectCompound.id":null,"controlDataExperiment.objectCompound.name":null,"controlDataExperiment.objectCompound.unii":null,"controlDataExperiment.objectCompound.inChIKey":null,"controlDataExperiment.objectCompound.publicDescription":null,"controlDataExperiment.objectCompound.internalComment":null,"controlDataExperiment.objectCompound.conceptId":null,"controlDataExperiment.objectCompound.enantiomerOfId":null,"controlDataExperiment.precipitantCompound.id":null,"controlDataExperiment.precipitantCompound.name":null,"controlDataExperiment.precipitantCompound.unii":null,"controlDataExperiment.precipitantCompound.inChIKey":null,"controlDataExperiment.precipitantCompound.publicDescription":null,"controlDataExperiment.precipitantCompound.internalComment":null,"controlDataExperiment.precipitantCompound.conceptId":null,"controlDataExperiment.precipitantCompound.enantiomerOfId":null,"controlDataExperiment.objectMetaboliteCompound.id":null,"controlDataExperiment.objectMetaboliteCompound.name":null,"controlDataExperiment.objectMetaboliteCompound.unii":null,"controlDataExperiment.objectMetaboliteCompound.inChIKey":null,"controlDataExperiment.objectMetaboliteCompound.publicDescriptio":null,"controlDataExperiment.objectMetaboliteCompound.internalComment":null,"controlDataExperiment.objectMetaboliteCompound.conceptId":null,"controlDataExperiment.objectMetaboliteCompound.enantiomerOfId":null,"controlDataExperiment.enzymes.id":null,"controlDataExperiment.enzymes.name":null,"controlDataExperiment.enzymes.conceptId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.enzymeId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.experiment":null,"controlDataExperiment.transporters.id":null,"controlDataExperiment.transporters.name":null,"controlDataExperiment.transporters.conceptId":null,"controlDataExperiment.transporters.experiment_transporter_xref.":null,"controlDataExperiment.quantifiedMetabolites.id":null,"controlDataExperiment.quantifiedMetabolites.name":null,"controlDataExperiment.quantifiedMetabolites.unii":null,"controlDataExperiment.quantifiedMetabolites.inChIKey":null,"controlDataExperiment.quantifiedMetabolites.publicDescription":null,"controlDataExperiment.quantifiedMetabolites.internalComment":null,"controlDataExperiment.quantifiedMetabolites.conceptId":null,"controlDataExperiment.quantifiedMetabolites.enantiomerOfId":null,"controlDataExperiment.quantifiedMetabolites.experiment_quantifi":null,"experimentAnswers.id":14138,"experimentAnswers.text":"species checked with DNA barcoding, and comparison with voucher specimens at the Field Museum of Natural History, Chicago.","experimentAnswers.answerId":null,"experimentAnswers.experimentId":776,"experimentAnswers.questionId":1106,"experimentAnswers.question.id":1106,"experimentAnswers.question.text":"Material preparation additional information","experimentAnswers.question.required":false,"experimentAnswers.question.maxAnswers":1,"experimentAnswers.question.type":"TEXT","experimentAnswers.question.conceptId":null,"experimentAnswers.question.answers.id":null,"experimentAnswers.question.answers.text":null,"experimentAnswers.question.answers.sortOrder":null,"experimentAnswers.question.answers.conceptId":null,"experimentAnswers.question.answers.questionId":null,"experimentAnswers.answer.id":null,"experimentAnswers.answer.text":null,"experimentAnswers.answer.sortOrder":null,"experimentAnswers.answer.conceptId":null,"experimentAnswers.answer.questionId":null},{"id":776,"uid":"NPDI-ebe-GA","name":"Chemical characterization of Licorice, Glycyrrhiza uralensis","overallEffect":0,"isControlData":false,"isIc50Shift":false,"croCutoff":null,"croIdentifier":null,"comment":null,"experimentalConditionsComment":null,"resultsComment":"% weight compound/weight extract

glabridin, licochalcone a had quantities of 0 and were excluded from the results","internalComment":null,"objectCompoundId":null,"objectMetaboliteCompoundId":null,"precipitantCompoundId":null,"cytochromeB5Id":null,"studyId":155,"experimentTypeId":10,"testSystemId":null,"ic50ShiftExperimentId":null,"controlDataExperimentId":null,"controlDataForExperimentId":null,"naturalProductSampleId":null,"experimentType.id":10,"experimentType.name":"Characterization of Material","experimentType.isInVitro":false,"experimentType.isTransporter":false,"experimentType.isEnzyme":false,"experimentType.purl":"http://purl.obolibrary.org/obo/DIDEO_00005004","objectCompound.id":null,"objectCompound.name":null,"objectCompound.unii":null,"objectCompound.inChIKey":null,"objectCompound.publicDescription":null,"objectCompound.internalComment":null,"objectCompound.conceptId":null,"objectCompound.enantiomerOfId":null,"objectCompound.concept.conceptId":null,"objectCompound.concept.conceptName":null,"objectCompound.concept.domainId":null,"objectCompound.concept.vocabularyId":null,"objectCompound.concept.conceptClassId":null,"objectCompound.concept.standardConcept":null,"objectCompound.concept.conceptCode":null,"objectCompound.concept.validStartDate":null,"objectCompound.concept.validEndDate":null,"objectCompound.concept.invalid_reason":null,"precipitantCompound.id":null,"precipitantCompound.name":null,"precipitantCompound.unii":null,"precipitantCompound.inChIKey":null,"precipitantCompound.publicDescription":null,"precipitantCompound.internalComment":null,"precipitantCompound.conceptId":null,"precipitantCompound.enantiomerOfId":null,"precipitantCompound.concept.conceptId":null,"precipitantCompound.concept.conceptName":null,"precipitantCompound.concept.domainId":null,"precipitantCompound.concept.vocabularyId":null,"precipitantCompound.concept.conceptClassId":null,"precipitantCompound.concept.standardConcept":null,"precipitantCompound.concept.conceptCode":null,"precipitantCompound.concept.validStartDate":null,"precipitantCompound.concept.validEndDate":null,"precipitantCompound.concept.invalid_reason":null,"objectMetaboliteCompound.id":null,"objectMetaboliteCompound.name":null,"objectMetaboliteCompound.unii":null,"objectMetaboliteCompound.inChIKey":null,"objectMetaboliteCompound.publicDescription":null,"objectMetaboliteCompound.internalComment":null,"objectMetaboliteCompound.conceptId":null,"objectMetaboliteCompound.enantiomerOfId":null,"objectMetaboliteCompound.concept.conceptId":null,"objectMetaboliteCompound.concept.conceptName":null,"objectMetaboliteCompound.concept.domainId":null,"objectMetaboliteCompound.concept.vocabularyId":null,"objectMetaboliteCompound.concept.conceptClassId":null,"objectMetaboliteCompound.concept.standardConcept":null,"objectMetaboliteCompound.concept.conceptCode":null,"objectMetaboliteCompound.concept.validStartDate":null,"objectMetaboliteCompound.concept.validEndDate":null,"objectMetaboliteCompound.concept.invalid_reason":null,"enzymes.id":null,"enzymes.name":null,"enzymes.conceptId":null,"enzymes.experiment_enzyme_xref.enzymeId":null,"enzymes.experiment_enzyme_xref.experimentId":null,"transporters.id":null,"transporters.name":null,"transporters.conceptId":null,"transporters.experiment_transporter_xref.experimentId":null,"transporters.experiment_transporter_xref.transporterId":null,"quantifiedMetabolites.id":234,"quantifiedMetabolites.name":"liquiritigenin","quantifiedMetabolites.unii":null,"quantifiedMetabolites.inChIKey":"FURUXTVZLHCCNA-AWEZNQCLSA-N","quantifiedMetabolites.publicDescription":null,"quantifiedMetabolites.internalComment":null,"quantifiedMetabolites.conceptId":null,"quantifiedMetabolites.enantiomerOfId":null,"quantifiedMetabolites.experiment_quantified_metabolite_xref.com":234,"quantifiedMetabolites.experiment_quantified_metabolite_xref.exp":776,"study.id":155,"study.uid":"NPDI-Lm3PvA","study.name":"Cytochrome P450 inhibition by licorice species Glycyrrhiza uralensis and fourteen licorice constituents","study.napdiIdentifier":null,"study.overallSummary":"

The potential of licorice dietary supplements to interact with drug metabolism was evaluated by testing extracts of botanically identified licorice species Glycyrrhiza uralensis and 14 isolated licorice compounds for inhibition of 9 cytochrome P450 enzymes using a UHPLC-MS/MS cocktail assay. G. uralensis strongly inhibited CYP2B6 and moderately inhibited CYP2C8, CYP2C9 and CYP2C19. The licorice compounds isoliquiritigenin, licoricidin, licochalcone A, 18β-glycyrrhetinic acid, and glycycoumarin inhibited one or more members of the CYP2C family of enzymes. Glycycoumarin and licochalcone A inhibited CYP1A2, but only glycycoumarin inhibited CYP2B6. Isoliquiritigenin, glabridin and licoricidin competitively inhibited CYP3A4. The licorice species commonly used in botanical dietary supplements have varying potential for drug-botanical interactions as inhibitors of cytochrome P450 isoforms. Each species of licorice displays a unique profile of constituents with potential for drug interactions.

","study.pubmedId":28774812,"study.embaseId":null,"study.croIdentifier":"UIC","study.croInformation":"UIC","study.dateStart":"2017-03-22T00:00:00.000Z","study.dateEnd":"2017-07-30T00:00:00.000Z","study.internalComment":null,"study.status":"published","study.compoundId":null,"study.naturalProductUid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProductSampleId":null,"study.studySourceTypeId":1,"study.naturalProduct.uid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProduct.binomial":"Glycyrrhiza uralensis","study.naturalProduct.name":"Licorice","study.naturalProduct.itis":null,"study.naturalProduct.srs":"dc6f848b-18bb-4620-81b1-b2af39721bd9","study.naturalProduct.source_id":"","study.naturalProduct.conceptId":null,"study.naturalProduct.concept.conceptId":null,"study.naturalProduct.concept.conceptName":null,"study.naturalProduct.concept.domainId":null,"study.naturalProduct.concept.vocabularyId":null,"study.naturalProduct.concept.conceptClassId":null,"study.naturalProduct.concept.standardConcept":null,"study.naturalProduct.concept.conceptCode":null,"study.naturalProduct.concept.validStartDate":null,"study.naturalProduct.concept.validEndDate":null,"study.naturalProduct.concept.invalid_reason":null,"study.compound.id":null,"study.compound.name":null,"study.compound.unii":null,"study.compound.inChIKey":null,"study.compound.publicDescription":null,"study.compound.internalComment":null,"study.compound.conceptId":null,"study.compound.enantiomerOfId":null,"study.studySourceType.id":1,"study.studySourceType.name":"Published report","testSystem.id":null,"testSystem.name":null,"testSystem.sortOrder":null,"testSystem.conceptId":null,"testSystem.categoryId":null,"testSystem.category.id":null,"testSystem.category.name":null,"testSystem.category.sortOrder":null,"testSystem.category.requiresCytochromeB5":null,"cytochromeB5.id":null,"cytochromeB5.name":null,"cytochromeB5.sortOrder":null,"cytochromeB5.conceptId":null,"controlDataExperiment.id":null,"controlDataExperiment.uid":null,"controlDataExperiment.name":null,"controlDataExperiment.overallEffect":null,"controlDataExperiment.isControlData":null,"controlDataExperiment.isIc50Shift":null,"controlDataExperiment.croCutoff":null,"controlDataExperiment.croIdentifier":null,"controlDataExperiment.comment":null,"controlDataExperiment.experimentalConditionsComment":null,"controlDataExperiment.resultsComment":null,"controlDataExperiment.internalComment":null,"controlDataExperiment.objectCompoundId":null,"controlDataExperiment.objectMetaboliteCompoundId":null,"controlDataExperiment.precipitantCompoundId":null,"controlDataExperiment.cytochromeB5Id":null,"controlDataExperiment.studyId":null,"controlDataExperiment.experimentTypeId":null,"controlDataExperiment.testSystemId":null,"controlDataExperiment.ic50ShiftExperimentId":null,"controlDataExperiment.controlDataExperimentId":null,"controlDataExperiment.controlDataForExperimentId":null,"controlDataExperiment.naturalProductSampleId":null,"controlDataExperiment.experimentType.id":null,"controlDataExperiment.experimentType.name":null,"controlDataExperiment.experimentType.isInVitro":null,"controlDataExperiment.experimentType.isTransporter":null,"controlDataExperiment.experimentType.isEnzyme":null,"controlDataExperiment.experimentType.purl":null,"controlDataExperiment.objectCompound.id":null,"controlDataExperiment.objectCompound.name":null,"controlDataExperiment.objectCompound.unii":null,"controlDataExperiment.objectCompound.inChIKey":null,"controlDataExperiment.objectCompound.publicDescription":null,"controlDataExperiment.objectCompound.internalComment":null,"controlDataExperiment.objectCompound.conceptId":null,"controlDataExperiment.objectCompound.enantiomerOfId":null,"controlDataExperiment.precipitantCompound.id":null,"controlDataExperiment.precipitantCompound.name":null,"controlDataExperiment.precipitantCompound.unii":null,"controlDataExperiment.precipitantCompound.inChIKey":null,"controlDataExperiment.precipitantCompound.publicDescription":null,"controlDataExperiment.precipitantCompound.internalComment":null,"controlDataExperiment.precipitantCompound.conceptId":null,"controlDataExperiment.precipitantCompound.enantiomerOfId":null,"controlDataExperiment.objectMetaboliteCompound.id":null,"controlDataExperiment.objectMetaboliteCompound.name":null,"controlDataExperiment.objectMetaboliteCompound.unii":null,"controlDataExperiment.objectMetaboliteCompound.inChIKey":null,"controlDataExperiment.objectMetaboliteCompound.publicDescriptio":null,"controlDataExperiment.objectMetaboliteCompound.internalComment":null,"controlDataExperiment.objectMetaboliteCompound.conceptId":null,"controlDataExperiment.objectMetaboliteCompound.enantiomerOfId":null,"controlDataExperiment.enzymes.id":null,"controlDataExperiment.enzymes.name":null,"controlDataExperiment.enzymes.conceptId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.enzymeId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.experiment":null,"controlDataExperiment.transporters.id":null,"controlDataExperiment.transporters.name":null,"controlDataExperiment.transporters.conceptId":null,"controlDataExperiment.transporters.experiment_transporter_xref.":null,"controlDataExperiment.quantifiedMetabolites.id":null,"controlDataExperiment.quantifiedMetabolites.name":null,"controlDataExperiment.quantifiedMetabolites.unii":null,"controlDataExperiment.quantifiedMetabolites.inChIKey":null,"controlDataExperiment.quantifiedMetabolites.publicDescription":null,"controlDataExperiment.quantifiedMetabolites.internalComment":null,"controlDataExperiment.quantifiedMetabolites.conceptId":null,"controlDataExperiment.quantifiedMetabolites.enantiomerOfId":null,"controlDataExperiment.quantifiedMetabolites.experiment_quantifi":null,"experimentAnswers.id":14139,"experimentAnswers.text":"UHPLC-MS/MS","experimentAnswers.answerId":null,"experimentAnswers.experimentId":776,"experimentAnswers.questionId":1113,"experimentAnswers.question.id":1113,"experimentAnswers.question.text":"Mass spectrometry instrument used","experimentAnswers.question.required":false,"experimentAnswers.question.maxAnswers":1,"experimentAnswers.question.type":"STRING","experimentAnswers.question.conceptId":null,"experimentAnswers.question.answers.id":null,"experimentAnswers.question.answers.text":null,"experimentAnswers.question.answers.sortOrder":null,"experimentAnswers.question.answers.conceptId":null,"experimentAnswers.question.answers.questionId":null,"experimentAnswers.answer.id":null,"experimentAnswers.answer.text":null,"experimentAnswers.answer.sortOrder":null,"experimentAnswers.answer.conceptId":null,"experimentAnswers.answer.questionId":null},{"id":776,"uid":"NPDI-ebe-GA","name":"Chemical characterization of Licorice, Glycyrrhiza uralensis","overallEffect":0,"isControlData":false,"isIc50Shift":false,"croCutoff":null,"croIdentifier":null,"comment":null,"experimentalConditionsComment":null,"resultsComment":"% weight compound/weight extract

glabridin, licochalcone a had quantities of 0 and were excluded from the results","internalComment":null,"objectCompoundId":null,"objectMetaboliteCompoundId":null,"precipitantCompoundId":null,"cytochromeB5Id":null,"studyId":155,"experimentTypeId":10,"testSystemId":null,"ic50ShiftExperimentId":null,"controlDataExperimentId":null,"controlDataForExperimentId":null,"naturalProductSampleId":null,"experimentType.id":10,"experimentType.name":"Characterization of Material","experimentType.isInVitro":false,"experimentType.isTransporter":false,"experimentType.isEnzyme":false,"experimentType.purl":"http://purl.obolibrary.org/obo/DIDEO_00005004","objectCompound.id":null,"objectCompound.name":null,"objectCompound.unii":null,"objectCompound.inChIKey":null,"objectCompound.publicDescription":null,"objectCompound.internalComment":null,"objectCompound.conceptId":null,"objectCompound.enantiomerOfId":null,"objectCompound.concept.conceptId":null,"objectCompound.concept.conceptName":null,"objectCompound.concept.domainId":null,"objectCompound.concept.vocabularyId":null,"objectCompound.concept.conceptClassId":null,"objectCompound.concept.standardConcept":null,"objectCompound.concept.conceptCode":null,"objectCompound.concept.validStartDate":null,"objectCompound.concept.validEndDate":null,"objectCompound.concept.invalid_reason":null,"precipitantCompound.id":null,"precipitantCompound.name":null,"precipitantCompound.unii":null,"precipitantCompound.inChIKey":null,"precipitantCompound.publicDescription":null,"precipitantCompound.internalComment":null,"precipitantCompound.conceptId":null,"precipitantCompound.enantiomerOfId":null,"precipitantCompound.concept.conceptId":null,"precipitantCompound.concept.conceptName":null,"precipitantCompound.concept.domainId":null,"precipitantCompound.concept.vocabularyId":null,"precipitantCompound.concept.conceptClassId":null,"precipitantCompound.concept.standardConcept":null,"precipitantCompound.concept.conceptCode":null,"precipitantCompound.concept.validStartDate":null,"precipitantCompound.concept.validEndDate":null,"precipitantCompound.concept.invalid_reason":null,"objectMetaboliteCompound.id":null,"objectMetaboliteCompound.name":null,"objectMetaboliteCompound.unii":null,"objectMetaboliteCompound.inChIKey":null,"objectMetaboliteCompound.publicDescription":null,"objectMetaboliteCompound.internalComment":null,"objectMetaboliteCompound.conceptId":null,"objectMetaboliteCompound.enantiomerOfId":null,"objectMetaboliteCompound.concept.conceptId":null,"objectMetaboliteCompound.concept.conceptName":null,"objectMetaboliteCompound.concept.domainId":null,"objectMetaboliteCompound.concept.vocabularyId":null,"objectMetaboliteCompound.concept.conceptClassId":null,"objectMetaboliteCompound.concept.standardConcept":null,"objectMetaboliteCompound.concept.conceptCode":null,"objectMetaboliteCompound.concept.validStartDate":null,"objectMetaboliteCompound.concept.validEndDate":null,"objectMetaboliteCompound.concept.invalid_reason":null,"enzymes.id":null,"enzymes.name":null,"enzymes.conceptId":null,"enzymes.experiment_enzyme_xref.enzymeId":null,"enzymes.experiment_enzyme_xref.experimentId":null,"transporters.id":null,"transporters.name":null,"transporters.conceptId":null,"transporters.experiment_transporter_xref.experimentId":null,"transporters.experiment_transporter_xref.transporterId":null,"quantifiedMetabolites.id":233,"quantifiedMetabolites.name":"licuraside","quantifiedMetabolites.unii":null,"quantifiedMetabolites.inChIKey":"VMMVZVPAYFZNBM-FPYGCLRLSA-N","quantifiedMetabolites.publicDescription":null,"quantifiedMetabolites.internalComment":null,"quantifiedMetabolites.conceptId":null,"quantifiedMetabolites.enantiomerOfId":null,"quantifiedMetabolites.experiment_quantified_metabolite_xref.com":233,"quantifiedMetabolites.experiment_quantified_metabolite_xref.exp":776,"study.id":155,"study.uid":"NPDI-Lm3PvA","study.name":"Cytochrome P450 inhibition by licorice species Glycyrrhiza uralensis and fourteen licorice constituents","study.napdiIdentifier":null,"study.overallSummary":"

The potential of licorice dietary supplements to interact with drug metabolism was evaluated by testing extracts of botanically identified licorice species Glycyrrhiza uralensis and 14 isolated licorice compounds for inhibition of 9 cytochrome P450 enzymes using a UHPLC-MS/MS cocktail assay. G. uralensis strongly inhibited CYP2B6 and moderately inhibited CYP2C8, CYP2C9 and CYP2C19. The licorice compounds isoliquiritigenin, licoricidin, licochalcone A, 18β-glycyrrhetinic acid, and glycycoumarin inhibited one or more members of the CYP2C family of enzymes. Glycycoumarin and licochalcone A inhibited CYP1A2, but only glycycoumarin inhibited CYP2B6. Isoliquiritigenin, glabridin and licoricidin competitively inhibited CYP3A4. The licorice species commonly used in botanical dietary supplements have varying potential for drug-botanical interactions as inhibitors of cytochrome P450 isoforms. Each species of licorice displays a unique profile of constituents with potential for drug interactions.

","study.pubmedId":28774812,"study.embaseId":null,"study.croIdentifier":"UIC","study.croInformation":"UIC","study.dateStart":"2017-03-22T00:00:00.000Z","study.dateEnd":"2017-07-30T00:00:00.000Z","study.internalComment":null,"study.status":"published","study.compoundId":null,"study.naturalProductUid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProductSampleId":null,"study.studySourceTypeId":1,"study.naturalProduct.uid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProduct.binomial":"Glycyrrhiza uralensis","study.naturalProduct.name":"Licorice","study.naturalProduct.itis":null,"study.naturalProduct.srs":"dc6f848b-18bb-4620-81b1-b2af39721bd9","study.naturalProduct.source_id":"","study.naturalProduct.conceptId":null,"study.naturalProduct.concept.conceptId":null,"study.naturalProduct.concept.conceptName":null,"study.naturalProduct.concept.domainId":null,"study.naturalProduct.concept.vocabularyId":null,"study.naturalProduct.concept.conceptClassId":null,"study.naturalProduct.concept.standardConcept":null,"study.naturalProduct.concept.conceptCode":null,"study.naturalProduct.concept.validStartDate":null,"study.naturalProduct.concept.validEndDate":null,"study.naturalProduct.concept.invalid_reason":null,"study.compound.id":null,"study.compound.name":null,"study.compound.unii":null,"study.compound.inChIKey":null,"study.compound.publicDescription":null,"study.compound.internalComment":null,"study.compound.conceptId":null,"study.compound.enantiomerOfId":null,"study.studySourceType.id":1,"study.studySourceType.name":"Published report","testSystem.id":null,"testSystem.name":null,"testSystem.sortOrder":null,"testSystem.conceptId":null,"testSystem.categoryId":null,"testSystem.category.id":null,"testSystem.category.name":null,"testSystem.category.sortOrder":null,"testSystem.category.requiresCytochromeB5":null,"cytochromeB5.id":null,"cytochromeB5.name":null,"cytochromeB5.sortOrder":null,"cytochromeB5.conceptId":null,"controlDataExperiment.id":null,"controlDataExperiment.uid":null,"controlDataExperiment.name":null,"controlDataExperiment.overallEffect":null,"controlDataExperiment.isControlData":null,"controlDataExperiment.isIc50Shift":null,"controlDataExperiment.croCutoff":null,"controlDataExperiment.croIdentifier":null,"controlDataExperiment.comment":null,"controlDataExperiment.experimentalConditionsComment":null,"controlDataExperiment.resultsComment":null,"controlDataExperiment.internalComment":null,"controlDataExperiment.objectCompoundId":null,"controlDataExperiment.objectMetaboliteCompoundId":null,"controlDataExperiment.precipitantCompoundId":null,"controlDataExperiment.cytochromeB5Id":null,"controlDataExperiment.studyId":null,"controlDataExperiment.experimentTypeId":null,"controlDataExperiment.testSystemId":null,"controlDataExperiment.ic50ShiftExperimentId":null,"controlDataExperiment.controlDataExperimentId":null,"controlDataExperiment.controlDataForExperimentId":null,"controlDataExperiment.naturalProductSampleId":null,"controlDataExperiment.experimentType.id":null,"controlDataExperiment.experimentType.name":null,"controlDataExperiment.experimentType.isInVitro":null,"controlDataExperiment.experimentType.isTransporter":null,"controlDataExperiment.experimentType.isEnzyme":null,"controlDataExperiment.experimentType.purl":null,"controlDataExperiment.objectCompound.id":null,"controlDataExperiment.objectCompound.name":null,"controlDataExperiment.objectCompound.unii":null,"controlDataExperiment.objectCompound.inChIKey":null,"controlDataExperiment.objectCompound.publicDescription":null,"controlDataExperiment.objectCompound.internalComment":null,"controlDataExperiment.objectCompound.conceptId":null,"controlDataExperiment.objectCompound.enantiomerOfId":null,"controlDataExperiment.precipitantCompound.id":null,"controlDataExperiment.precipitantCompound.name":null,"controlDataExperiment.precipitantCompound.unii":null,"controlDataExperiment.precipitantCompound.inChIKey":null,"controlDataExperiment.precipitantCompound.publicDescription":null,"controlDataExperiment.precipitantCompound.internalComment":null,"controlDataExperiment.precipitantCompound.conceptId":null,"controlDataExperiment.precipitantCompound.enantiomerOfId":null,"controlDataExperiment.objectMetaboliteCompound.id":null,"controlDataExperiment.objectMetaboliteCompound.name":null,"controlDataExperiment.objectMetaboliteCompound.unii":null,"controlDataExperiment.objectMetaboliteCompound.inChIKey":null,"controlDataExperiment.objectMetaboliteCompound.publicDescriptio":null,"controlDataExperiment.objectMetaboliteCompound.internalComment":null,"controlDataExperiment.objectMetaboliteCompound.conceptId":null,"controlDataExperiment.objectMetaboliteCompound.enantiomerOfId":null,"controlDataExperiment.enzymes.id":null,"controlDataExperiment.enzymes.name":null,"controlDataExperiment.enzymes.conceptId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.enzymeId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.experiment":null,"controlDataExperiment.transporters.id":null,"controlDataExperiment.transporters.name":null,"controlDataExperiment.transporters.conceptId":null,"controlDataExperiment.transporters.experiment_transporter_xref.":null,"controlDataExperiment.quantifiedMetabolites.id":null,"controlDataExperiment.quantifiedMetabolites.name":null,"controlDataExperiment.quantifiedMetabolites.unii":null,"controlDataExperiment.quantifiedMetabolites.inChIKey":null,"controlDataExperiment.quantifiedMetabolites.publicDescription":null,"controlDataExperiment.quantifiedMetabolites.internalComment":null,"controlDataExperiment.quantifiedMetabolites.conceptId":null,"controlDataExperiment.quantifiedMetabolites.enantiomerOfId":null,"controlDataExperiment.quantifiedMetabolites.experiment_quantifi":null,"experimentAnswers.id":14137,"experimentAnswers.text":"ethanol, isopropanol, water (90:5:5, v/v/v)","experimentAnswers.answerId":null,"experimentAnswers.experimentId":776,"experimentAnswers.questionId":1104,"experimentAnswers.question.id":1104,"experimentAnswers.question.text":"Solvent used","experimentAnswers.question.required":false,"experimentAnswers.question.maxAnswers":1,"experimentAnswers.question.type":"STRING","experimentAnswers.question.conceptId":null,"experimentAnswers.question.answers.id":null,"experimentAnswers.question.answers.text":null,"experimentAnswers.question.answers.sortOrder":null,"experimentAnswers.question.answers.conceptId":null,"experimentAnswers.question.answers.questionId":null,"experimentAnswers.answer.id":null,"experimentAnswers.answer.text":null,"experimentAnswers.answer.sortOrder":null,"experimentAnswers.answer.conceptId":null,"experimentAnswers.answer.questionId":null},{"id":776,"uid":"NPDI-ebe-GA","name":"Chemical characterization of Licorice, Glycyrrhiza uralensis","overallEffect":0,"isControlData":false,"isIc50Shift":false,"croCutoff":null,"croIdentifier":null,"comment":null,"experimentalConditionsComment":null,"resultsComment":"% weight compound/weight extract

glabridin, licochalcone a had quantities of 0 and were excluded from the results","internalComment":null,"objectCompoundId":null,"objectMetaboliteCompoundId":null,"precipitantCompoundId":null,"cytochromeB5Id":null,"studyId":155,"experimentTypeId":10,"testSystemId":null,"ic50ShiftExperimentId":null,"controlDataExperimentId":null,"controlDataForExperimentId":null,"naturalProductSampleId":null,"experimentType.id":10,"experimentType.name":"Characterization of Material","experimentType.isInVitro":false,"experimentType.isTransporter":false,"experimentType.isEnzyme":false,"experimentType.purl":"http://purl.obolibrary.org/obo/DIDEO_00005004","objectCompound.id":null,"objectCompound.name":null,"objectCompound.unii":null,"objectCompound.inChIKey":null,"objectCompound.publicDescription":null,"objectCompound.internalComment":null,"objectCompound.conceptId":null,"objectCompound.enantiomerOfId":null,"objectCompound.concept.conceptId":null,"objectCompound.concept.conceptName":null,"objectCompound.concept.domainId":null,"objectCompound.concept.vocabularyId":null,"objectCompound.concept.conceptClassId":null,"objectCompound.concept.standardConcept":null,"objectCompound.concept.conceptCode":null,"objectCompound.concept.validStartDate":null,"objectCompound.concept.validEndDate":null,"objectCompound.concept.invalid_reason":null,"precipitantCompound.id":null,"precipitantCompound.name":null,"precipitantCompound.unii":null,"precipitantCompound.inChIKey":null,"precipitantCompound.publicDescription":null,"precipitantCompound.internalComment":null,"precipitantCompound.conceptId":null,"precipitantCompound.enantiomerOfId":null,"precipitantCompound.concept.conceptId":null,"precipitantCompound.concept.conceptName":null,"precipitantCompound.concept.domainId":null,"precipitantCompound.concept.vocabularyId":null,"precipitantCompound.concept.conceptClassId":null,"precipitantCompound.concept.standardConcept":null,"precipitantCompound.concept.conceptCode":null,"precipitantCompound.concept.validStartDate":null,"precipitantCompound.concept.validEndDate":null,"precipitantCompound.concept.invalid_reason":null,"objectMetaboliteCompound.id":null,"objectMetaboliteCompound.name":null,"objectMetaboliteCompound.unii":null,"objectMetaboliteCompound.inChIKey":null,"objectMetaboliteCompound.publicDescription":null,"objectMetaboliteCompound.internalComment":null,"objectMetaboliteCompound.conceptId":null,"objectMetaboliteCompound.enantiomerOfId":null,"objectMetaboliteCompound.concept.conceptId":null,"objectMetaboliteCompound.concept.conceptName":null,"objectMetaboliteCompound.concept.domainId":null,"objectMetaboliteCompound.concept.vocabularyId":null,"objectMetaboliteCompound.concept.conceptClassId":null,"objectMetaboliteCompound.concept.standardConcept":null,"objectMetaboliteCompound.concept.conceptCode":null,"objectMetaboliteCompound.concept.validStartDate":null,"objectMetaboliteCompound.concept.validEndDate":null,"objectMetaboliteCompound.concept.invalid_reason":null,"enzymes.id":null,"enzymes.name":null,"enzymes.conceptId":null,"enzymes.experiment_enzyme_xref.enzymeId":null,"enzymes.experiment_enzyme_xref.experimentId":null,"transporters.id":null,"transporters.name":null,"transporters.conceptId":null,"transporters.experiment_transporter_xref.experimentId":null,"transporters.experiment_transporter_xref.transporterId":null,"quantifiedMetabolites.id":233,"quantifiedMetabolites.name":"licuraside","quantifiedMetabolites.unii":null,"quantifiedMetabolites.inChIKey":"VMMVZVPAYFZNBM-FPYGCLRLSA-N","quantifiedMetabolites.publicDescription":null,"quantifiedMetabolites.internalComment":null,"quantifiedMetabolites.conceptId":null,"quantifiedMetabolites.enantiomerOfId":null,"quantifiedMetabolites.experiment_quantified_metabolite_xref.com":233,"quantifiedMetabolites.experiment_quantified_metabolite_xref.exp":776,"study.id":155,"study.uid":"NPDI-Lm3PvA","study.name":"Cytochrome P450 inhibition by licorice species Glycyrrhiza uralensis and fourteen licorice constituents","study.napdiIdentifier":null,"study.overallSummary":"

The potential of licorice dietary supplements to interact with drug metabolism was evaluated by testing extracts of botanically identified licorice species Glycyrrhiza uralensis and 14 isolated licorice compounds for inhibition of 9 cytochrome P450 enzymes using a UHPLC-MS/MS cocktail assay. G. uralensis strongly inhibited CYP2B6 and moderately inhibited CYP2C8, CYP2C9 and CYP2C19. The licorice compounds isoliquiritigenin, licoricidin, licochalcone A, 18β-glycyrrhetinic acid, and glycycoumarin inhibited one or more members of the CYP2C family of enzymes. Glycycoumarin and licochalcone A inhibited CYP1A2, but only glycycoumarin inhibited CYP2B6. Isoliquiritigenin, glabridin and licoricidin competitively inhibited CYP3A4. The licorice species commonly used in botanical dietary supplements have varying potential for drug-botanical interactions as inhibitors of cytochrome P450 isoforms. Each species of licorice displays a unique profile of constituents with potential for drug interactions.

","study.pubmedId":28774812,"study.embaseId":null,"study.croIdentifier":"UIC","study.croInformation":"UIC","study.dateStart":"2017-03-22T00:00:00.000Z","study.dateEnd":"2017-07-30T00:00:00.000Z","study.internalComment":null,"study.status":"published","study.compoundId":null,"study.naturalProductUid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProductSampleId":null,"study.studySourceTypeId":1,"study.naturalProduct.uid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProduct.binomial":"Glycyrrhiza uralensis","study.naturalProduct.name":"Licorice","study.naturalProduct.itis":null,"study.naturalProduct.srs":"dc6f848b-18bb-4620-81b1-b2af39721bd9","study.naturalProduct.source_id":"","study.naturalProduct.conceptId":null,"study.naturalProduct.concept.conceptId":null,"study.naturalProduct.concept.conceptName":null,"study.naturalProduct.concept.domainId":null,"study.naturalProduct.concept.vocabularyId":null,"study.naturalProduct.concept.conceptClassId":null,"study.naturalProduct.concept.standardConcept":null,"study.naturalProduct.concept.conceptCode":null,"study.naturalProduct.concept.validStartDate":null,"study.naturalProduct.concept.validEndDate":null,"study.naturalProduct.concept.invalid_reason":null,"study.compound.id":null,"study.compound.name":null,"study.compound.unii":null,"study.compound.inChIKey":null,"study.compound.publicDescription":null,"study.compound.internalComment":null,"study.compound.conceptId":null,"study.compound.enantiomerOfId":null,"study.studySourceType.id":1,"study.studySourceType.name":"Published report","testSystem.id":null,"testSystem.name":null,"testSystem.sortOrder":null,"testSystem.conceptId":null,"testSystem.categoryId":null,"testSystem.category.id":null,"testSystem.category.name":null,"testSystem.category.sortOrder":null,"testSystem.category.requiresCytochromeB5":null,"cytochromeB5.id":null,"cytochromeB5.name":null,"cytochromeB5.sortOrder":null,"cytochromeB5.conceptId":null,"controlDataExperiment.id":null,"controlDataExperiment.uid":null,"controlDataExperiment.name":null,"controlDataExperiment.overallEffect":null,"controlDataExperiment.isControlData":null,"controlDataExperiment.isIc50Shift":null,"controlDataExperiment.croCutoff":null,"controlDataExperiment.croIdentifier":null,"controlDataExperiment.comment":null,"controlDataExperiment.experimentalConditionsComment":null,"controlDataExperiment.resultsComment":null,"controlDataExperiment.internalComment":null,"controlDataExperiment.objectCompoundId":null,"controlDataExperiment.objectMetaboliteCompoundId":null,"controlDataExperiment.precipitantCompoundId":null,"controlDataExperiment.cytochromeB5Id":null,"controlDataExperiment.studyId":null,"controlDataExperiment.experimentTypeId":null,"controlDataExperiment.testSystemId":null,"controlDataExperiment.ic50ShiftExperimentId":null,"controlDataExperiment.controlDataExperimentId":null,"controlDataExperiment.controlDataForExperimentId":null,"controlDataExperiment.naturalProductSampleId":null,"controlDataExperiment.experimentType.id":null,"controlDataExperiment.experimentType.name":null,"controlDataExperiment.experimentType.isInVitro":null,"controlDataExperiment.experimentType.isTransporter":null,"controlDataExperiment.experimentType.isEnzyme":null,"controlDataExperiment.experimentType.purl":null,"controlDataExperiment.objectCompound.id":null,"controlDataExperiment.objectCompound.name":null,"controlDataExperiment.objectCompound.unii":null,"controlDataExperiment.objectCompound.inChIKey":null,"controlDataExperiment.objectCompound.publicDescription":null,"controlDataExperiment.objectCompound.internalComment":null,"controlDataExperiment.objectCompound.conceptId":null,"controlDataExperiment.objectCompound.enantiomerOfId":null,"controlDataExperiment.precipitantCompound.id":null,"controlDataExperiment.precipitantCompound.name":null,"controlDataExperiment.precipitantCompound.unii":null,"controlDataExperiment.precipitantCompound.inChIKey":null,"controlDataExperiment.precipitantCompound.publicDescription":null,"controlDataExperiment.precipitantCompound.internalComment":null,"controlDataExperiment.precipitantCompound.conceptId":null,"controlDataExperiment.precipitantCompound.enantiomerOfId":null,"controlDataExperiment.objectMetaboliteCompound.id":null,"controlDataExperiment.objectMetaboliteCompound.name":null,"controlDataExperiment.objectMetaboliteCompound.unii":null,"controlDataExperiment.objectMetaboliteCompound.inChIKey":null,"controlDataExperiment.objectMetaboliteCompound.publicDescriptio":null,"controlDataExperiment.objectMetaboliteCompound.internalComment":null,"controlDataExperiment.objectMetaboliteCompound.conceptId":null,"controlDataExperiment.objectMetaboliteCompound.enantiomerOfId":null,"controlDataExperiment.enzymes.id":null,"controlDataExperiment.enzymes.name":null,"controlDataExperiment.enzymes.conceptId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.enzymeId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.experiment":null,"controlDataExperiment.transporters.id":null,"controlDataExperiment.transporters.name":null,"controlDataExperiment.transporters.conceptId":null,"controlDataExperiment.transporters.experiment_transporter_xref.":null,"controlDataExperiment.quantifiedMetabolites.id":null,"controlDataExperiment.quantifiedMetabolites.name":null,"controlDataExperiment.quantifiedMetabolites.unii":null,"controlDataExperiment.quantifiedMetabolites.inChIKey":null,"controlDataExperiment.quantifiedMetabolites.publicDescription":null,"controlDataExperiment.quantifiedMetabolites.internalComment":null,"controlDataExperiment.quantifiedMetabolites.conceptId":null,"controlDataExperiment.quantifiedMetabolites.enantiomerOfId":null,"controlDataExperiment.quantifiedMetabolites.experiment_quantifi":null,"experimentAnswers.id":14138,"experimentAnswers.text":"species checked with DNA barcoding, and comparison with voucher specimens at the Field Museum of Natural History, Chicago.","experimentAnswers.answerId":null,"experimentAnswers.experimentId":776,"experimentAnswers.questionId":1106,"experimentAnswers.question.id":1106,"experimentAnswers.question.text":"Material preparation additional information","experimentAnswers.question.required":false,"experimentAnswers.question.maxAnswers":1,"experimentAnswers.question.type":"TEXT","experimentAnswers.question.conceptId":null,"experimentAnswers.question.answers.id":null,"experimentAnswers.question.answers.text":null,"experimentAnswers.question.answers.sortOrder":null,"experimentAnswers.question.answers.conceptId":null,"experimentAnswers.question.answers.questionId":null,"experimentAnswers.answer.id":null,"experimentAnswers.answer.text":null,"experimentAnswers.answer.sortOrder":null,"experimentAnswers.answer.conceptId":null,"experimentAnswers.answer.questionId":null},{"id":776,"uid":"NPDI-ebe-GA","name":"Chemical characterization of Licorice, Glycyrrhiza uralensis","overallEffect":0,"isControlData":false,"isIc50Shift":false,"croCutoff":null,"croIdentifier":null,"comment":null,"experimentalConditionsComment":null,"resultsComment":"% weight compound/weight extract

glabridin, licochalcone a had quantities of 0 and were excluded from the results","internalComment":null,"objectCompoundId":null,"objectMetaboliteCompoundId":null,"precipitantCompoundId":null,"cytochromeB5Id":null,"studyId":155,"experimentTypeId":10,"testSystemId":null,"ic50ShiftExperimentId":null,"controlDataExperimentId":null,"controlDataForExperimentId":null,"naturalProductSampleId":null,"experimentType.id":10,"experimentType.name":"Characterization of Material","experimentType.isInVitro":false,"experimentType.isTransporter":false,"experimentType.isEnzyme":false,"experimentType.purl":"http://purl.obolibrary.org/obo/DIDEO_00005004","objectCompound.id":null,"objectCompound.name":null,"objectCompound.unii":null,"objectCompound.inChIKey":null,"objectCompound.publicDescription":null,"objectCompound.internalComment":null,"objectCompound.conceptId":null,"objectCompound.enantiomerOfId":null,"objectCompound.concept.conceptId":null,"objectCompound.concept.conceptName":null,"objectCompound.concept.domainId":null,"objectCompound.concept.vocabularyId":null,"objectCompound.concept.conceptClassId":null,"objectCompound.concept.standardConcept":null,"objectCompound.concept.conceptCode":null,"objectCompound.concept.validStartDate":null,"objectCompound.concept.validEndDate":null,"objectCompound.concept.invalid_reason":null,"precipitantCompound.id":null,"precipitantCompound.name":null,"precipitantCompound.unii":null,"precipitantCompound.inChIKey":null,"precipitantCompound.publicDescription":null,"precipitantCompound.internalComment":null,"precipitantCompound.conceptId":null,"precipitantCompound.enantiomerOfId":null,"precipitantCompound.concept.conceptId":null,"precipitantCompound.concept.conceptName":null,"precipitantCompound.concept.domainId":null,"precipitantCompound.concept.vocabularyId":null,"precipitantCompound.concept.conceptClassId":null,"precipitantCompound.concept.standardConcept":null,"precipitantCompound.concept.conceptCode":null,"precipitantCompound.concept.validStartDate":null,"precipitantCompound.concept.validEndDate":null,"precipitantCompound.concept.invalid_reason":null,"objectMetaboliteCompound.id":null,"objectMetaboliteCompound.name":null,"objectMetaboliteCompound.unii":null,"objectMetaboliteCompound.inChIKey":null,"objectMetaboliteCompound.publicDescription":null,"objectMetaboliteCompound.internalComment":null,"objectMetaboliteCompound.conceptId":null,"objectMetaboliteCompound.enantiomerOfId":null,"objectMetaboliteCompound.concept.conceptId":null,"objectMetaboliteCompound.concept.conceptName":null,"objectMetaboliteCompound.concept.domainId":null,"objectMetaboliteCompound.concept.vocabularyId":null,"objectMetaboliteCompound.concept.conceptClassId":null,"objectMetaboliteCompound.concept.standardConcept":null,"objectMetaboliteCompound.concept.conceptCode":null,"objectMetaboliteCompound.concept.validStartDate":null,"objectMetaboliteCompound.concept.validEndDate":null,"objectMetaboliteCompound.concept.invalid_reason":null,"enzymes.id":null,"enzymes.name":null,"enzymes.conceptId":null,"enzymes.experiment_enzyme_xref.enzymeId":null,"enzymes.experiment_enzyme_xref.experimentId":null,"transporters.id":null,"transporters.name":null,"transporters.conceptId":null,"transporters.experiment_transporter_xref.experimentId":null,"transporters.experiment_transporter_xref.transporterId":null,"quantifiedMetabolites.id":233,"quantifiedMetabolites.name":"licuraside","quantifiedMetabolites.unii":null,"quantifiedMetabolites.inChIKey":"VMMVZVPAYFZNBM-FPYGCLRLSA-N","quantifiedMetabolites.publicDescription":null,"quantifiedMetabolites.internalComment":null,"quantifiedMetabolites.conceptId":null,"quantifiedMetabolites.enantiomerOfId":null,"quantifiedMetabolites.experiment_quantified_metabolite_xref.com":233,"quantifiedMetabolites.experiment_quantified_metabolite_xref.exp":776,"study.id":155,"study.uid":"NPDI-Lm3PvA","study.name":"Cytochrome P450 inhibition by licorice species Glycyrrhiza uralensis and fourteen licorice constituents","study.napdiIdentifier":null,"study.overallSummary":"

The potential of licorice dietary supplements to interact with drug metabolism was evaluated by testing extracts of botanically identified licorice species Glycyrrhiza uralensis and 14 isolated licorice compounds for inhibition of 9 cytochrome P450 enzymes using a UHPLC-MS/MS cocktail assay. G. uralensis strongly inhibited CYP2B6 and moderately inhibited CYP2C8, CYP2C9 and CYP2C19. The licorice compounds isoliquiritigenin, licoricidin, licochalcone A, 18β-glycyrrhetinic acid, and glycycoumarin inhibited one or more members of the CYP2C family of enzymes. Glycycoumarin and licochalcone A inhibited CYP1A2, but only glycycoumarin inhibited CYP2B6. Isoliquiritigenin, glabridin and licoricidin competitively inhibited CYP3A4. The licorice species commonly used in botanical dietary supplements have varying potential for drug-botanical interactions as inhibitors of cytochrome P450 isoforms. Each species of licorice displays a unique profile of constituents with potential for drug interactions.

","study.pubmedId":28774812,"study.embaseId":null,"study.croIdentifier":"UIC","study.croInformation":"UIC","study.dateStart":"2017-03-22T00:00:00.000Z","study.dateEnd":"2017-07-30T00:00:00.000Z","study.internalComment":null,"study.status":"published","study.compoundId":null,"study.naturalProductUid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProductSampleId":null,"study.studySourceTypeId":1,"study.naturalProduct.uid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProduct.binomial":"Glycyrrhiza uralensis","study.naturalProduct.name":"Licorice","study.naturalProduct.itis":null,"study.naturalProduct.srs":"dc6f848b-18bb-4620-81b1-b2af39721bd9","study.naturalProduct.source_id":"","study.naturalProduct.conceptId":null,"study.naturalProduct.concept.conceptId":null,"study.naturalProduct.concept.conceptName":null,"study.naturalProduct.concept.domainId":null,"study.naturalProduct.concept.vocabularyId":null,"study.naturalProduct.concept.conceptClassId":null,"study.naturalProduct.concept.standardConcept":null,"study.naturalProduct.concept.conceptCode":null,"study.naturalProduct.concept.validStartDate":null,"study.naturalProduct.concept.validEndDate":null,"study.naturalProduct.concept.invalid_reason":null,"study.compound.id":null,"study.compound.name":null,"study.compound.unii":null,"study.compound.inChIKey":null,"study.compound.publicDescription":null,"study.compound.internalComment":null,"study.compound.conceptId":null,"study.compound.enantiomerOfId":null,"study.studySourceType.id":1,"study.studySourceType.name":"Published report","testSystem.id":null,"testSystem.name":null,"testSystem.sortOrder":null,"testSystem.conceptId":null,"testSystem.categoryId":null,"testSystem.category.id":null,"testSystem.category.name":null,"testSystem.category.sortOrder":null,"testSystem.category.requiresCytochromeB5":null,"cytochromeB5.id":null,"cytochromeB5.name":null,"cytochromeB5.sortOrder":null,"cytochromeB5.conceptId":null,"controlDataExperiment.id":null,"controlDataExperiment.uid":null,"controlDataExperiment.name":null,"controlDataExperiment.overallEffect":null,"controlDataExperiment.isControlData":null,"controlDataExperiment.isIc50Shift":null,"controlDataExperiment.croCutoff":null,"controlDataExperiment.croIdentifier":null,"controlDataExperiment.comment":null,"controlDataExperiment.experimentalConditionsComment":null,"controlDataExperiment.resultsComment":null,"controlDataExperiment.internalComment":null,"controlDataExperiment.objectCompoundId":null,"controlDataExperiment.objectMetaboliteCompoundId":null,"controlDataExperiment.precipitantCompoundId":null,"controlDataExperiment.cytochromeB5Id":null,"controlDataExperiment.studyId":null,"controlDataExperiment.experimentTypeId":null,"controlDataExperiment.testSystemId":null,"controlDataExperiment.ic50ShiftExperimentId":null,"controlDataExperiment.controlDataExperimentId":null,"controlDataExperiment.controlDataForExperimentId":null,"controlDataExperiment.naturalProductSampleId":null,"controlDataExperiment.experimentType.id":null,"controlDataExperiment.experimentType.name":null,"controlDataExperiment.experimentType.isInVitro":null,"controlDataExperiment.experimentType.isTransporter":null,"controlDataExperiment.experimentType.isEnzyme":null,"controlDataExperiment.experimentType.purl":null,"controlDataExperiment.objectCompound.id":null,"controlDataExperiment.objectCompound.name":null,"controlDataExperiment.objectCompound.unii":null,"controlDataExperiment.objectCompound.inChIKey":null,"controlDataExperiment.objectCompound.publicDescription":null,"controlDataExperiment.objectCompound.internalComment":null,"controlDataExperiment.objectCompound.conceptId":null,"controlDataExperiment.objectCompound.enantiomerOfId":null,"controlDataExperiment.precipitantCompound.id":null,"controlDataExperiment.precipitantCompound.name":null,"controlDataExperiment.precipitantCompound.unii":null,"controlDataExperiment.precipitantCompound.inChIKey":null,"controlDataExperiment.precipitantCompound.publicDescription":null,"controlDataExperiment.precipitantCompound.internalComment":null,"controlDataExperiment.precipitantCompound.conceptId":null,"controlDataExperiment.precipitantCompound.enantiomerOfId":null,"controlDataExperiment.objectMetaboliteCompound.id":null,"controlDataExperiment.objectMetaboliteCompound.name":null,"controlDataExperiment.objectMetaboliteCompound.unii":null,"controlDataExperiment.objectMetaboliteCompound.inChIKey":null,"controlDataExperiment.objectMetaboliteCompound.publicDescriptio":null,"controlDataExperiment.objectMetaboliteCompound.internalComment":null,"controlDataExperiment.objectMetaboliteCompound.conceptId":null,"controlDataExperiment.objectMetaboliteCompound.enantiomerOfId":null,"controlDataExperiment.enzymes.id":null,"controlDataExperiment.enzymes.name":null,"controlDataExperiment.enzymes.conceptId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.enzymeId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.experiment":null,"controlDataExperiment.transporters.id":null,"controlDataExperiment.transporters.name":null,"controlDataExperiment.transporters.conceptId":null,"controlDataExperiment.transporters.experiment_transporter_xref.":null,"controlDataExperiment.quantifiedMetabolites.id":null,"controlDataExperiment.quantifiedMetabolites.name":null,"controlDataExperiment.quantifiedMetabolites.unii":null,"controlDataExperiment.quantifiedMetabolites.inChIKey":null,"controlDataExperiment.quantifiedMetabolites.publicDescription":null,"controlDataExperiment.quantifiedMetabolites.internalComment":null,"controlDataExperiment.quantifiedMetabolites.conceptId":null,"controlDataExperiment.quantifiedMetabolites.enantiomerOfId":null,"controlDataExperiment.quantifiedMetabolites.experiment_quantifi":null,"experimentAnswers.id":14139,"experimentAnswers.text":"UHPLC-MS/MS","experimentAnswers.answerId":null,"experimentAnswers.experimentId":776,"experimentAnswers.questionId":1113,"experimentAnswers.question.id":1113,"experimentAnswers.question.text":"Mass spectrometry instrument used","experimentAnswers.question.required":false,"experimentAnswers.question.maxAnswers":1,"experimentAnswers.question.type":"STRING","experimentAnswers.question.conceptId":null,"experimentAnswers.question.answers.id":null,"experimentAnswers.question.answers.text":null,"experimentAnswers.question.answers.sortOrder":null,"experimentAnswers.question.answers.conceptId":null,"experimentAnswers.question.answers.questionId":null,"experimentAnswers.answer.id":null,"experimentAnswers.answer.text":null,"experimentAnswers.answer.sortOrder":null,"experimentAnswers.answer.conceptId":null,"experimentAnswers.answer.questionId":null},{"id":776,"uid":"NPDI-ebe-GA","name":"Chemical characterization of Licorice, Glycyrrhiza uralensis","overallEffect":0,"isControlData":false,"isIc50Shift":false,"croCutoff":null,"croIdentifier":null,"comment":null,"experimentalConditionsComment":null,"resultsComment":"% weight compound/weight extract

glabridin, licochalcone a had quantities of 0 and were excluded from the results","internalComment":null,"objectCompoundId":null,"objectMetaboliteCompoundId":null,"precipitantCompoundId":null,"cytochromeB5Id":null,"studyId":155,"experimentTypeId":10,"testSystemId":null,"ic50ShiftExperimentId":null,"controlDataExperimentId":null,"controlDataForExperimentId":null,"naturalProductSampleId":null,"experimentType.id":10,"experimentType.name":"Characterization of Material","experimentType.isInVitro":false,"experimentType.isTransporter":false,"experimentType.isEnzyme":false,"experimentType.purl":"http://purl.obolibrary.org/obo/DIDEO_00005004","objectCompound.id":null,"objectCompound.name":null,"objectCompound.unii":null,"objectCompound.inChIKey":null,"objectCompound.publicDescription":null,"objectCompound.internalComment":null,"objectCompound.conceptId":null,"objectCompound.enantiomerOfId":null,"objectCompound.concept.conceptId":null,"objectCompound.concept.conceptName":null,"objectCompound.concept.domainId":null,"objectCompound.concept.vocabularyId":null,"objectCompound.concept.conceptClassId":null,"objectCompound.concept.standardConcept":null,"objectCompound.concept.conceptCode":null,"objectCompound.concept.validStartDate":null,"objectCompound.concept.validEndDate":null,"objectCompound.concept.invalid_reason":null,"precipitantCompound.id":null,"precipitantCompound.name":null,"precipitantCompound.unii":null,"precipitantCompound.inChIKey":null,"precipitantCompound.publicDescription":null,"precipitantCompound.internalComment":null,"precipitantCompound.conceptId":null,"precipitantCompound.enantiomerOfId":null,"precipitantCompound.concept.conceptId":null,"precipitantCompound.concept.conceptName":null,"precipitantCompound.concept.domainId":null,"precipitantCompound.concept.vocabularyId":null,"precipitantCompound.concept.conceptClassId":null,"precipitantCompound.concept.standardConcept":null,"precipitantCompound.concept.conceptCode":null,"precipitantCompound.concept.validStartDate":null,"precipitantCompound.concept.validEndDate":null,"precipitantCompound.concept.invalid_reason":null,"objectMetaboliteCompound.id":null,"objectMetaboliteCompound.name":null,"objectMetaboliteCompound.unii":null,"objectMetaboliteCompound.inChIKey":null,"objectMetaboliteCompound.publicDescription":null,"objectMetaboliteCompound.internalComment":null,"objectMetaboliteCompound.conceptId":null,"objectMetaboliteCompound.enantiomerOfId":null,"objectMetaboliteCompound.concept.conceptId":null,"objectMetaboliteCompound.concept.conceptName":null,"objectMetaboliteCompound.concept.domainId":null,"objectMetaboliteCompound.concept.vocabularyId":null,"objectMetaboliteCompound.concept.conceptClassId":null,"objectMetaboliteCompound.concept.standardConcept":null,"objectMetaboliteCompound.concept.conceptCode":null,"objectMetaboliteCompound.concept.validStartDate":null,"objectMetaboliteCompound.concept.validEndDate":null,"objectMetaboliteCompound.concept.invalid_reason":null,"enzymes.id":null,"enzymes.name":null,"enzymes.conceptId":null,"enzymes.experiment_enzyme_xref.enzymeId":null,"enzymes.experiment_enzyme_xref.experimentId":null,"transporters.id":null,"transporters.name":null,"transporters.conceptId":null,"transporters.experiment_transporter_xref.experimentId":null,"transporters.experiment_transporter_xref.transporterId":null,"quantifiedMetabolites.id":230,"quantifiedMetabolites.name":"isoliquiritin","quantifiedMetabolites.unii":null,"quantifiedMetabolites.inChIKey":"YNWXJFQOCHMPCK-LXGDFETPSA-N","quantifiedMetabolites.publicDescription":null,"quantifiedMetabolites.internalComment":null,"quantifiedMetabolites.conceptId":null,"quantifiedMetabolites.enantiomerOfId":null,"quantifiedMetabolites.experiment_quantified_metabolite_xref.com":230,"quantifiedMetabolites.experiment_quantified_metabolite_xref.exp":776,"study.id":155,"study.uid":"NPDI-Lm3PvA","study.name":"Cytochrome P450 inhibition by licorice species Glycyrrhiza uralensis and fourteen licorice constituents","study.napdiIdentifier":null,"study.overallSummary":"

The potential of licorice dietary supplements to interact with drug metabolism was evaluated by testing extracts of botanically identified licorice species Glycyrrhiza uralensis and 14 isolated licorice compounds for inhibition of 9 cytochrome P450 enzymes using a UHPLC-MS/MS cocktail assay. G. uralensis strongly inhibited CYP2B6 and moderately inhibited CYP2C8, CYP2C9 and CYP2C19. The licorice compounds isoliquiritigenin, licoricidin, licochalcone A, 18β-glycyrrhetinic acid, and glycycoumarin inhibited one or more members of the CYP2C family of enzymes. Glycycoumarin and licochalcone A inhibited CYP1A2, but only glycycoumarin inhibited CYP2B6. Isoliquiritigenin, glabridin and licoricidin competitively inhibited CYP3A4. The licorice species commonly used in botanical dietary supplements have varying potential for drug-botanical interactions as inhibitors of cytochrome P450 isoforms. Each species of licorice displays a unique profile of constituents with potential for drug interactions.

","study.pubmedId":28774812,"study.embaseId":null,"study.croIdentifier":"UIC","study.croInformation":"UIC","study.dateStart":"2017-03-22T00:00:00.000Z","study.dateEnd":"2017-07-30T00:00:00.000Z","study.internalComment":null,"study.status":"published","study.compoundId":null,"study.naturalProductUid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProductSampleId":null,"study.studySourceTypeId":1,"study.naturalProduct.uid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProduct.binomial":"Glycyrrhiza uralensis","study.naturalProduct.name":"Licorice","study.naturalProduct.itis":null,"study.naturalProduct.srs":"dc6f848b-18bb-4620-81b1-b2af39721bd9","study.naturalProduct.source_id":"","study.naturalProduct.conceptId":null,"study.naturalProduct.concept.conceptId":null,"study.naturalProduct.concept.conceptName":null,"study.naturalProduct.concept.domainId":null,"study.naturalProduct.concept.vocabularyId":null,"study.naturalProduct.concept.conceptClassId":null,"study.naturalProduct.concept.standardConcept":null,"study.naturalProduct.concept.conceptCode":null,"study.naturalProduct.concept.validStartDate":null,"study.naturalProduct.concept.validEndDate":null,"study.naturalProduct.concept.invalid_reason":null,"study.compound.id":null,"study.compound.name":null,"study.compound.unii":null,"study.compound.inChIKey":null,"study.compound.publicDescription":null,"study.compound.internalComment":null,"study.compound.conceptId":null,"study.compound.enantiomerOfId":null,"study.studySourceType.id":1,"study.studySourceType.name":"Published report","testSystem.id":null,"testSystem.name":null,"testSystem.sortOrder":null,"testSystem.conceptId":null,"testSystem.categoryId":null,"testSystem.category.id":null,"testSystem.category.name":null,"testSystem.category.sortOrder":null,"testSystem.category.requiresCytochromeB5":null,"cytochromeB5.id":null,"cytochromeB5.name":null,"cytochromeB5.sortOrder":null,"cytochromeB5.conceptId":null,"controlDataExperiment.id":null,"controlDataExperiment.uid":null,"controlDataExperiment.name":null,"controlDataExperiment.overallEffect":null,"controlDataExperiment.isControlData":null,"controlDataExperiment.isIc50Shift":null,"controlDataExperiment.croCutoff":null,"controlDataExperiment.croIdentifier":null,"controlDataExperiment.comment":null,"controlDataExperiment.experimentalConditionsComment":null,"controlDataExperiment.resultsComment":null,"controlDataExperiment.internalComment":null,"controlDataExperiment.objectCompoundId":null,"controlDataExperiment.objectMetaboliteCompoundId":null,"controlDataExperiment.precipitantCompoundId":null,"controlDataExperiment.cytochromeB5Id":null,"controlDataExperiment.studyId":null,"controlDataExperiment.experimentTypeId":null,"controlDataExperiment.testSystemId":null,"controlDataExperiment.ic50ShiftExperimentId":null,"controlDataExperiment.controlDataExperimentId":null,"controlDataExperiment.controlDataForExperimentId":null,"controlDataExperiment.naturalProductSampleId":null,"controlDataExperiment.experimentType.id":null,"controlDataExperiment.experimentType.name":null,"controlDataExperiment.experimentType.isInVitro":null,"controlDataExperiment.experimentType.isTransporter":null,"controlDataExperiment.experimentType.isEnzyme":null,"controlDataExperiment.experimentType.purl":null,"controlDataExperiment.objectCompound.id":null,"controlDataExperiment.objectCompound.name":null,"controlDataExperiment.objectCompound.unii":null,"controlDataExperiment.objectCompound.inChIKey":null,"controlDataExperiment.objectCompound.publicDescription":null,"controlDataExperiment.objectCompound.internalComment":null,"controlDataExperiment.objectCompound.conceptId":null,"controlDataExperiment.objectCompound.enantiomerOfId":null,"controlDataExperiment.precipitantCompound.id":null,"controlDataExperiment.precipitantCompound.name":null,"controlDataExperiment.precipitantCompound.unii":null,"controlDataExperiment.precipitantCompound.inChIKey":null,"controlDataExperiment.precipitantCompound.publicDescription":null,"controlDataExperiment.precipitantCompound.internalComment":null,"controlDataExperiment.precipitantCompound.conceptId":null,"controlDataExperiment.precipitantCompound.enantiomerOfId":null,"controlDataExperiment.objectMetaboliteCompound.id":null,"controlDataExperiment.objectMetaboliteCompound.name":null,"controlDataExperiment.objectMetaboliteCompound.unii":null,"controlDataExperiment.objectMetaboliteCompound.inChIKey":null,"controlDataExperiment.objectMetaboliteCompound.publicDescriptio":null,"controlDataExperiment.objectMetaboliteCompound.internalComment":null,"controlDataExperiment.objectMetaboliteCompound.conceptId":null,"controlDataExperiment.objectMetaboliteCompound.enantiomerOfId":null,"controlDataExperiment.enzymes.id":null,"controlDataExperiment.enzymes.name":null,"controlDataExperiment.enzymes.conceptId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.enzymeId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.experiment":null,"controlDataExperiment.transporters.id":null,"controlDataExperiment.transporters.name":null,"controlDataExperiment.transporters.conceptId":null,"controlDataExperiment.transporters.experiment_transporter_xref.":null,"controlDataExperiment.quantifiedMetabolites.id":null,"controlDataExperiment.quantifiedMetabolites.name":null,"controlDataExperiment.quantifiedMetabolites.unii":null,"controlDataExperiment.quantifiedMetabolites.inChIKey":null,"controlDataExperiment.quantifiedMetabolites.publicDescription":null,"controlDataExperiment.quantifiedMetabolites.internalComment":null,"controlDataExperiment.quantifiedMetabolites.conceptId":null,"controlDataExperiment.quantifiedMetabolites.enantiomerOfId":null,"controlDataExperiment.quantifiedMetabolites.experiment_quantifi":null,"experimentAnswers.id":14137,"experimentAnswers.text":"ethanol, isopropanol, water (90:5:5, v/v/v)","experimentAnswers.answerId":null,"experimentAnswers.experimentId":776,"experimentAnswers.questionId":1104,"experimentAnswers.question.id":1104,"experimentAnswers.question.text":"Solvent used","experimentAnswers.question.required":false,"experimentAnswers.question.maxAnswers":1,"experimentAnswers.question.type":"STRING","experimentAnswers.question.conceptId":null,"experimentAnswers.question.answers.id":null,"experimentAnswers.question.answers.text":null,"experimentAnswers.question.answers.sortOrder":null,"experimentAnswers.question.answers.conceptId":null,"experimentAnswers.question.answers.questionId":null,"experimentAnswers.answer.id":null,"experimentAnswers.answer.text":null,"experimentAnswers.answer.sortOrder":null,"experimentAnswers.answer.conceptId":null,"experimentAnswers.answer.questionId":null},{"id":776,"uid":"NPDI-ebe-GA","name":"Chemical characterization of Licorice, Glycyrrhiza uralensis","overallEffect":0,"isControlData":false,"isIc50Shift":false,"croCutoff":null,"croIdentifier":null,"comment":null,"experimentalConditionsComment":null,"resultsComment":"% weight compound/weight extract

glabridin, licochalcone a had quantities of 0 and were excluded from the results","internalComment":null,"objectCompoundId":null,"objectMetaboliteCompoundId":null,"precipitantCompoundId":null,"cytochromeB5Id":null,"studyId":155,"experimentTypeId":10,"testSystemId":null,"ic50ShiftExperimentId":null,"controlDataExperimentId":null,"controlDataForExperimentId":null,"naturalProductSampleId":null,"experimentType.id":10,"experimentType.name":"Characterization of Material","experimentType.isInVitro":false,"experimentType.isTransporter":false,"experimentType.isEnzyme":false,"experimentType.purl":"http://purl.obolibrary.org/obo/DIDEO_00005004","objectCompound.id":null,"objectCompound.name":null,"objectCompound.unii":null,"objectCompound.inChIKey":null,"objectCompound.publicDescription":null,"objectCompound.internalComment":null,"objectCompound.conceptId":null,"objectCompound.enantiomerOfId":null,"objectCompound.concept.conceptId":null,"objectCompound.concept.conceptName":null,"objectCompound.concept.domainId":null,"objectCompound.concept.vocabularyId":null,"objectCompound.concept.conceptClassId":null,"objectCompound.concept.standardConcept":null,"objectCompound.concept.conceptCode":null,"objectCompound.concept.validStartDate":null,"objectCompound.concept.validEndDate":null,"objectCompound.concept.invalid_reason":null,"precipitantCompound.id":null,"precipitantCompound.name":null,"precipitantCompound.unii":null,"precipitantCompound.inChIKey":null,"precipitantCompound.publicDescription":null,"precipitantCompound.internalComment":null,"precipitantCompound.conceptId":null,"precipitantCompound.enantiomerOfId":null,"precipitantCompound.concept.conceptId":null,"precipitantCompound.concept.conceptName":null,"precipitantCompound.concept.domainId":null,"precipitantCompound.concept.vocabularyId":null,"precipitantCompound.concept.conceptClassId":null,"precipitantCompound.concept.standardConcept":null,"precipitantCompound.concept.conceptCode":null,"precipitantCompound.concept.validStartDate":null,"precipitantCompound.concept.validEndDate":null,"precipitantCompound.concept.invalid_reason":null,"objectMetaboliteCompound.id":null,"objectMetaboliteCompound.name":null,"objectMetaboliteCompound.unii":null,"objectMetaboliteCompound.inChIKey":null,"objectMetaboliteCompound.publicDescription":null,"objectMetaboliteCompound.internalComment":null,"objectMetaboliteCompound.conceptId":null,"objectMetaboliteCompound.enantiomerOfId":null,"objectMetaboliteCompound.concept.conceptId":null,"objectMetaboliteCompound.concept.conceptName":null,"objectMetaboliteCompound.concept.domainId":null,"objectMetaboliteCompound.concept.vocabularyId":null,"objectMetaboliteCompound.concept.conceptClassId":null,"objectMetaboliteCompound.concept.standardConcept":null,"objectMetaboliteCompound.concept.conceptCode":null,"objectMetaboliteCompound.concept.validStartDate":null,"objectMetaboliteCompound.concept.validEndDate":null,"objectMetaboliteCompound.concept.invalid_reason":null,"enzymes.id":null,"enzymes.name":null,"enzymes.conceptId":null,"enzymes.experiment_enzyme_xref.enzymeId":null,"enzymes.experiment_enzyme_xref.experimentId":null,"transporters.id":null,"transporters.name":null,"transporters.conceptId":null,"transporters.experiment_transporter_xref.experimentId":null,"transporters.experiment_transporter_xref.transporterId":null,"quantifiedMetabolites.id":230,"quantifiedMetabolites.name":"isoliquiritin","quantifiedMetabolites.unii":null,"quantifiedMetabolites.inChIKey":"YNWXJFQOCHMPCK-LXGDFETPSA-N","quantifiedMetabolites.publicDescription":null,"quantifiedMetabolites.internalComment":null,"quantifiedMetabolites.conceptId":null,"quantifiedMetabolites.enantiomerOfId":null,"quantifiedMetabolites.experiment_quantified_metabolite_xref.com":230,"quantifiedMetabolites.experiment_quantified_metabolite_xref.exp":776,"study.id":155,"study.uid":"NPDI-Lm3PvA","study.name":"Cytochrome P450 inhibition by licorice species Glycyrrhiza uralensis and fourteen licorice constituents","study.napdiIdentifier":null,"study.overallSummary":"

The potential of licorice dietary supplements to interact with drug metabolism was evaluated by testing extracts of botanically identified licorice species Glycyrrhiza uralensis and 14 isolated licorice compounds for inhibition of 9 cytochrome P450 enzymes using a UHPLC-MS/MS cocktail assay. G. uralensis strongly inhibited CYP2B6 and moderately inhibited CYP2C8, CYP2C9 and CYP2C19. The licorice compounds isoliquiritigenin, licoricidin, licochalcone A, 18β-glycyrrhetinic acid, and glycycoumarin inhibited one or more members of the CYP2C family of enzymes. Glycycoumarin and licochalcone A inhibited CYP1A2, but only glycycoumarin inhibited CYP2B6. Isoliquiritigenin, glabridin and licoricidin competitively inhibited CYP3A4. The licorice species commonly used in botanical dietary supplements have varying potential for drug-botanical interactions as inhibitors of cytochrome P450 isoforms. Each species of licorice displays a unique profile of constituents with potential for drug interactions.

","study.pubmedId":28774812,"study.embaseId":null,"study.croIdentifier":"UIC","study.croInformation":"UIC","study.dateStart":"2017-03-22T00:00:00.000Z","study.dateEnd":"2017-07-30T00:00:00.000Z","study.internalComment":null,"study.status":"published","study.compoundId":null,"study.naturalProductUid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProductSampleId":null,"study.studySourceTypeId":1,"study.naturalProduct.uid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProduct.binomial":"Glycyrrhiza uralensis","study.naturalProduct.name":"Licorice","study.naturalProduct.itis":null,"study.naturalProduct.srs":"dc6f848b-18bb-4620-81b1-b2af39721bd9","study.naturalProduct.source_id":"","study.naturalProduct.conceptId":null,"study.naturalProduct.concept.conceptId":null,"study.naturalProduct.concept.conceptName":null,"study.naturalProduct.concept.domainId":null,"study.naturalProduct.concept.vocabularyId":null,"study.naturalProduct.concept.conceptClassId":null,"study.naturalProduct.concept.standardConcept":null,"study.naturalProduct.concept.conceptCode":null,"study.naturalProduct.concept.validStartDate":null,"study.naturalProduct.concept.validEndDate":null,"study.naturalProduct.concept.invalid_reason":null,"study.compound.id":null,"study.compound.name":null,"study.compound.unii":null,"study.compound.inChIKey":null,"study.compound.publicDescription":null,"study.compound.internalComment":null,"study.compound.conceptId":null,"study.compound.enantiomerOfId":null,"study.studySourceType.id":1,"study.studySourceType.name":"Published report","testSystem.id":null,"testSystem.name":null,"testSystem.sortOrder":null,"testSystem.conceptId":null,"testSystem.categoryId":null,"testSystem.category.id":null,"testSystem.category.name":null,"testSystem.category.sortOrder":null,"testSystem.category.requiresCytochromeB5":null,"cytochromeB5.id":null,"cytochromeB5.name":null,"cytochromeB5.sortOrder":null,"cytochromeB5.conceptId":null,"controlDataExperiment.id":null,"controlDataExperiment.uid":null,"controlDataExperiment.name":null,"controlDataExperiment.overallEffect":null,"controlDataExperiment.isControlData":null,"controlDataExperiment.isIc50Shift":null,"controlDataExperiment.croCutoff":null,"controlDataExperiment.croIdentifier":null,"controlDataExperiment.comment":null,"controlDataExperiment.experimentalConditionsComment":null,"controlDataExperiment.resultsComment":null,"controlDataExperiment.internalComment":null,"controlDataExperiment.objectCompoundId":null,"controlDataExperiment.objectMetaboliteCompoundId":null,"controlDataExperiment.precipitantCompoundId":null,"controlDataExperiment.cytochromeB5Id":null,"controlDataExperiment.studyId":null,"controlDataExperiment.experimentTypeId":null,"controlDataExperiment.testSystemId":null,"controlDataExperiment.ic50ShiftExperimentId":null,"controlDataExperiment.controlDataExperimentId":null,"controlDataExperiment.controlDataForExperimentId":null,"controlDataExperiment.naturalProductSampleId":null,"controlDataExperiment.experimentType.id":null,"controlDataExperiment.experimentType.name":null,"controlDataExperiment.experimentType.isInVitro":null,"controlDataExperiment.experimentType.isTransporter":null,"controlDataExperiment.experimentType.isEnzyme":null,"controlDataExperiment.experimentType.purl":null,"controlDataExperiment.objectCompound.id":null,"controlDataExperiment.objectCompound.name":null,"controlDataExperiment.objectCompound.unii":null,"controlDataExperiment.objectCompound.inChIKey":null,"controlDataExperiment.objectCompound.publicDescription":null,"controlDataExperiment.objectCompound.internalComment":null,"controlDataExperiment.objectCompound.conceptId":null,"controlDataExperiment.objectCompound.enantiomerOfId":null,"controlDataExperiment.precipitantCompound.id":null,"controlDataExperiment.precipitantCompound.name":null,"controlDataExperiment.precipitantCompound.unii":null,"controlDataExperiment.precipitantCompound.inChIKey":null,"controlDataExperiment.precipitantCompound.publicDescription":null,"controlDataExperiment.precipitantCompound.internalComment":null,"controlDataExperiment.precipitantCompound.conceptId":null,"controlDataExperiment.precipitantCompound.enantiomerOfId":null,"controlDataExperiment.objectMetaboliteCompound.id":null,"controlDataExperiment.objectMetaboliteCompound.name":null,"controlDataExperiment.objectMetaboliteCompound.unii":null,"controlDataExperiment.objectMetaboliteCompound.inChIKey":null,"controlDataExperiment.objectMetaboliteCompound.publicDescriptio":null,"controlDataExperiment.objectMetaboliteCompound.internalComment":null,"controlDataExperiment.objectMetaboliteCompound.conceptId":null,"controlDataExperiment.objectMetaboliteCompound.enantiomerOfId":null,"controlDataExperiment.enzymes.id":null,"controlDataExperiment.enzymes.name":null,"controlDataExperiment.enzymes.conceptId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.enzymeId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.experiment":null,"controlDataExperiment.transporters.id":null,"controlDataExperiment.transporters.name":null,"controlDataExperiment.transporters.conceptId":null,"controlDataExperiment.transporters.experiment_transporter_xref.":null,"controlDataExperiment.quantifiedMetabolites.id":null,"controlDataExperiment.quantifiedMetabolites.name":null,"controlDataExperiment.quantifiedMetabolites.unii":null,"controlDataExperiment.quantifiedMetabolites.inChIKey":null,"controlDataExperiment.quantifiedMetabolites.publicDescription":null,"controlDataExperiment.quantifiedMetabolites.internalComment":null,"controlDataExperiment.quantifiedMetabolites.conceptId":null,"controlDataExperiment.quantifiedMetabolites.enantiomerOfId":null,"controlDataExperiment.quantifiedMetabolites.experiment_quantifi":null,"experimentAnswers.id":14138,"experimentAnswers.text":"species checked with DNA barcoding, and comparison with voucher specimens at the Field Museum of Natural History, Chicago.","experimentAnswers.answerId":null,"experimentAnswers.experimentId":776,"experimentAnswers.questionId":1106,"experimentAnswers.question.id":1106,"experimentAnswers.question.text":"Material preparation additional information","experimentAnswers.question.required":false,"experimentAnswers.question.maxAnswers":1,"experimentAnswers.question.type":"TEXT","experimentAnswers.question.conceptId":null,"experimentAnswers.question.answers.id":null,"experimentAnswers.question.answers.text":null,"experimentAnswers.question.answers.sortOrder":null,"experimentAnswers.question.answers.conceptId":null,"experimentAnswers.question.answers.questionId":null,"experimentAnswers.answer.id":null,"experimentAnswers.answer.text":null,"experimentAnswers.answer.sortOrder":null,"experimentAnswers.answer.conceptId":null,"experimentAnswers.answer.questionId":null},{"id":776,"uid":"NPDI-ebe-GA","name":"Chemical characterization of Licorice, Glycyrrhiza uralensis","overallEffect":0,"isControlData":false,"isIc50Shift":false,"croCutoff":null,"croIdentifier":null,"comment":null,"experimentalConditionsComment":null,"resultsComment":"% weight compound/weight extract

glabridin, licochalcone a had quantities of 0 and were excluded from the results","internalComment":null,"objectCompoundId":null,"objectMetaboliteCompoundId":null,"precipitantCompoundId":null,"cytochromeB5Id":null,"studyId":155,"experimentTypeId":10,"testSystemId":null,"ic50ShiftExperimentId":null,"controlDataExperimentId":null,"controlDataForExperimentId":null,"naturalProductSampleId":null,"experimentType.id":10,"experimentType.name":"Characterization of Material","experimentType.isInVitro":false,"experimentType.isTransporter":false,"experimentType.isEnzyme":false,"experimentType.purl":"http://purl.obolibrary.org/obo/DIDEO_00005004","objectCompound.id":null,"objectCompound.name":null,"objectCompound.unii":null,"objectCompound.inChIKey":null,"objectCompound.publicDescription":null,"objectCompound.internalComment":null,"objectCompound.conceptId":null,"objectCompound.enantiomerOfId":null,"objectCompound.concept.conceptId":null,"objectCompound.concept.conceptName":null,"objectCompound.concept.domainId":null,"objectCompound.concept.vocabularyId":null,"objectCompound.concept.conceptClassId":null,"objectCompound.concept.standardConcept":null,"objectCompound.concept.conceptCode":null,"objectCompound.concept.validStartDate":null,"objectCompound.concept.validEndDate":null,"objectCompound.concept.invalid_reason":null,"precipitantCompound.id":null,"precipitantCompound.name":null,"precipitantCompound.unii":null,"precipitantCompound.inChIKey":null,"precipitantCompound.publicDescription":null,"precipitantCompound.internalComment":null,"precipitantCompound.conceptId":null,"precipitantCompound.enantiomerOfId":null,"precipitantCompound.concept.conceptId":null,"precipitantCompound.concept.conceptName":null,"precipitantCompound.concept.domainId":null,"precipitantCompound.concept.vocabularyId":null,"precipitantCompound.concept.conceptClassId":null,"precipitantCompound.concept.standardConcept":null,"precipitantCompound.concept.conceptCode":null,"precipitantCompound.concept.validStartDate":null,"precipitantCompound.concept.validEndDate":null,"precipitantCompound.concept.invalid_reason":null,"objectMetaboliteCompound.id":null,"objectMetaboliteCompound.name":null,"objectMetaboliteCompound.unii":null,"objectMetaboliteCompound.inChIKey":null,"objectMetaboliteCompound.publicDescription":null,"objectMetaboliteCompound.internalComment":null,"objectMetaboliteCompound.conceptId":null,"objectMetaboliteCompound.enantiomerOfId":null,"objectMetaboliteCompound.concept.conceptId":null,"objectMetaboliteCompound.concept.conceptName":null,"objectMetaboliteCompound.concept.domainId":null,"objectMetaboliteCompound.concept.vocabularyId":null,"objectMetaboliteCompound.concept.conceptClassId":null,"objectMetaboliteCompound.concept.standardConcept":null,"objectMetaboliteCompound.concept.conceptCode":null,"objectMetaboliteCompound.concept.validStartDate":null,"objectMetaboliteCompound.concept.validEndDate":null,"objectMetaboliteCompound.concept.invalid_reason":null,"enzymes.id":null,"enzymes.name":null,"enzymes.conceptId":null,"enzymes.experiment_enzyme_xref.enzymeId":null,"enzymes.experiment_enzyme_xref.experimentId":null,"transporters.id":null,"transporters.name":null,"transporters.conceptId":null,"transporters.experiment_transporter_xref.experimentId":null,"transporters.experiment_transporter_xref.transporterId":null,"quantifiedMetabolites.id":230,"quantifiedMetabolites.name":"isoliquiritin","quantifiedMetabolites.unii":null,"quantifiedMetabolites.inChIKey":"YNWXJFQOCHMPCK-LXGDFETPSA-N","quantifiedMetabolites.publicDescription":null,"quantifiedMetabolites.internalComment":null,"quantifiedMetabolites.conceptId":null,"quantifiedMetabolites.enantiomerOfId":null,"quantifiedMetabolites.experiment_quantified_metabolite_xref.com":230,"quantifiedMetabolites.experiment_quantified_metabolite_xref.exp":776,"study.id":155,"study.uid":"NPDI-Lm3PvA","study.name":"Cytochrome P450 inhibition by licorice species Glycyrrhiza uralensis and fourteen licorice constituents","study.napdiIdentifier":null,"study.overallSummary":"

The potential of licorice dietary supplements to interact with drug metabolism was evaluated by testing extracts of botanically identified licorice species Glycyrrhiza uralensis and 14 isolated licorice compounds for inhibition of 9 cytochrome P450 enzymes using a UHPLC-MS/MS cocktail assay. G. uralensis strongly inhibited CYP2B6 and moderately inhibited CYP2C8, CYP2C9 and CYP2C19. The licorice compounds isoliquiritigenin, licoricidin, licochalcone A, 18β-glycyrrhetinic acid, and glycycoumarin inhibited one or more members of the CYP2C family of enzymes. Glycycoumarin and licochalcone A inhibited CYP1A2, but only glycycoumarin inhibited CYP2B6. Isoliquiritigenin, glabridin and licoricidin competitively inhibited CYP3A4. The licorice species commonly used in botanical dietary supplements have varying potential for drug-botanical interactions as inhibitors of cytochrome P450 isoforms. Each species of licorice displays a unique profile of constituents with potential for drug interactions.

","study.pubmedId":28774812,"study.embaseId":null,"study.croIdentifier":"UIC","study.croInformation":"UIC","study.dateStart":"2017-03-22T00:00:00.000Z","study.dateEnd":"2017-07-30T00:00:00.000Z","study.internalComment":null,"study.status":"published","study.compoundId":null,"study.naturalProductUid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProductSampleId":null,"study.studySourceTypeId":1,"study.naturalProduct.uid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProduct.binomial":"Glycyrrhiza uralensis","study.naturalProduct.name":"Licorice","study.naturalProduct.itis":null,"study.naturalProduct.srs":"dc6f848b-18bb-4620-81b1-b2af39721bd9","study.naturalProduct.source_id":"","study.naturalProduct.conceptId":null,"study.naturalProduct.concept.conceptId":null,"study.naturalProduct.concept.conceptName":null,"study.naturalProduct.concept.domainId":null,"study.naturalProduct.concept.vocabularyId":null,"study.naturalProduct.concept.conceptClassId":null,"study.naturalProduct.concept.standardConcept":null,"study.naturalProduct.concept.conceptCode":null,"study.naturalProduct.concept.validStartDate":null,"study.naturalProduct.concept.validEndDate":null,"study.naturalProduct.concept.invalid_reason":null,"study.compound.id":null,"study.compound.name":null,"study.compound.unii":null,"study.compound.inChIKey":null,"study.compound.publicDescription":null,"study.compound.internalComment":null,"study.compound.conceptId":null,"study.compound.enantiomerOfId":null,"study.studySourceType.id":1,"study.studySourceType.name":"Published report","testSystem.id":null,"testSystem.name":null,"testSystem.sortOrder":null,"testSystem.conceptId":null,"testSystem.categoryId":null,"testSystem.category.id":null,"testSystem.category.name":null,"testSystem.category.sortOrder":null,"testSystem.category.requiresCytochromeB5":null,"cytochromeB5.id":null,"cytochromeB5.name":null,"cytochromeB5.sortOrder":null,"cytochromeB5.conceptId":null,"controlDataExperiment.id":null,"controlDataExperiment.uid":null,"controlDataExperiment.name":null,"controlDataExperiment.overallEffect":null,"controlDataExperiment.isControlData":null,"controlDataExperiment.isIc50Shift":null,"controlDataExperiment.croCutoff":null,"controlDataExperiment.croIdentifier":null,"controlDataExperiment.comment":null,"controlDataExperiment.experimentalConditionsComment":null,"controlDataExperiment.resultsComment":null,"controlDataExperiment.internalComment":null,"controlDataExperiment.objectCompoundId":null,"controlDataExperiment.objectMetaboliteCompoundId":null,"controlDataExperiment.precipitantCompoundId":null,"controlDataExperiment.cytochromeB5Id":null,"controlDataExperiment.studyId":null,"controlDataExperiment.experimentTypeId":null,"controlDataExperiment.testSystemId":null,"controlDataExperiment.ic50ShiftExperimentId":null,"controlDataExperiment.controlDataExperimentId":null,"controlDataExperiment.controlDataForExperimentId":null,"controlDataExperiment.naturalProductSampleId":null,"controlDataExperiment.experimentType.id":null,"controlDataExperiment.experimentType.name":null,"controlDataExperiment.experimentType.isInVitro":null,"controlDataExperiment.experimentType.isTransporter":null,"controlDataExperiment.experimentType.isEnzyme":null,"controlDataExperiment.experimentType.purl":null,"controlDataExperiment.objectCompound.id":null,"controlDataExperiment.objectCompound.name":null,"controlDataExperiment.objectCompound.unii":null,"controlDataExperiment.objectCompound.inChIKey":null,"controlDataExperiment.objectCompound.publicDescription":null,"controlDataExperiment.objectCompound.internalComment":null,"controlDataExperiment.objectCompound.conceptId":null,"controlDataExperiment.objectCompound.enantiomerOfId":null,"controlDataExperiment.precipitantCompound.id":null,"controlDataExperiment.precipitantCompound.name":null,"controlDataExperiment.precipitantCompound.unii":null,"controlDataExperiment.precipitantCompound.inChIKey":null,"controlDataExperiment.precipitantCompound.publicDescription":null,"controlDataExperiment.precipitantCompound.internalComment":null,"controlDataExperiment.precipitantCompound.conceptId":null,"controlDataExperiment.precipitantCompound.enantiomerOfId":null,"controlDataExperiment.objectMetaboliteCompound.id":null,"controlDataExperiment.objectMetaboliteCompound.name":null,"controlDataExperiment.objectMetaboliteCompound.unii":null,"controlDataExperiment.objectMetaboliteCompound.inChIKey":null,"controlDataExperiment.objectMetaboliteCompound.publicDescriptio":null,"controlDataExperiment.objectMetaboliteCompound.internalComment":null,"controlDataExperiment.objectMetaboliteCompound.conceptId":null,"controlDataExperiment.objectMetaboliteCompound.enantiomerOfId":null,"controlDataExperiment.enzymes.id":null,"controlDataExperiment.enzymes.name":null,"controlDataExperiment.enzymes.conceptId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.enzymeId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.experiment":null,"controlDataExperiment.transporters.id":null,"controlDataExperiment.transporters.name":null,"controlDataExperiment.transporters.conceptId":null,"controlDataExperiment.transporters.experiment_transporter_xref.":null,"controlDataExperiment.quantifiedMetabolites.id":null,"controlDataExperiment.quantifiedMetabolites.name":null,"controlDataExperiment.quantifiedMetabolites.unii":null,"controlDataExperiment.quantifiedMetabolites.inChIKey":null,"controlDataExperiment.quantifiedMetabolites.publicDescription":null,"controlDataExperiment.quantifiedMetabolites.internalComment":null,"controlDataExperiment.quantifiedMetabolites.conceptId":null,"controlDataExperiment.quantifiedMetabolites.enantiomerOfId":null,"controlDataExperiment.quantifiedMetabolites.experiment_quantifi":null,"experimentAnswers.id":14139,"experimentAnswers.text":"UHPLC-MS/MS","experimentAnswers.answerId":null,"experimentAnswers.experimentId":776,"experimentAnswers.questionId":1113,"experimentAnswers.question.id":1113,"experimentAnswers.question.text":"Mass spectrometry instrument used","experimentAnswers.question.required":false,"experimentAnswers.question.maxAnswers":1,"experimentAnswers.question.type":"STRING","experimentAnswers.question.conceptId":null,"experimentAnswers.question.answers.id":null,"experimentAnswers.question.answers.text":null,"experimentAnswers.question.answers.sortOrder":null,"experimentAnswers.question.answers.conceptId":null,"experimentAnswers.question.answers.questionId":null,"experimentAnswers.answer.id":null,"experimentAnswers.answer.text":null,"experimentAnswers.answer.sortOrder":null,"experimentAnswers.answer.conceptId":null,"experimentAnswers.answer.questionId":null},{"id":776,"uid":"NPDI-ebe-GA","name":"Chemical characterization of Licorice, Glycyrrhiza uralensis","overallEffect":0,"isControlData":false,"isIc50Shift":false,"croCutoff":null,"croIdentifier":null,"comment":null,"experimentalConditionsComment":null,"resultsComment":"% weight compound/weight extract

glabridin, licochalcone a had quantities of 0 and were excluded from the results","internalComment":null,"objectCompoundId":null,"objectMetaboliteCompoundId":null,"precipitantCompoundId":null,"cytochromeB5Id":null,"studyId":155,"experimentTypeId":10,"testSystemId":null,"ic50ShiftExperimentId":null,"controlDataExperimentId":null,"controlDataForExperimentId":null,"naturalProductSampleId":null,"experimentType.id":10,"experimentType.name":"Characterization of Material","experimentType.isInVitro":false,"experimentType.isTransporter":false,"experimentType.isEnzyme":false,"experimentType.purl":"http://purl.obolibrary.org/obo/DIDEO_00005004","objectCompound.id":null,"objectCompound.name":null,"objectCompound.unii":null,"objectCompound.inChIKey":null,"objectCompound.publicDescription":null,"objectCompound.internalComment":null,"objectCompound.conceptId":null,"objectCompound.enantiomerOfId":null,"objectCompound.concept.conceptId":null,"objectCompound.concept.conceptName":null,"objectCompound.concept.domainId":null,"objectCompound.concept.vocabularyId":null,"objectCompound.concept.conceptClassId":null,"objectCompound.concept.standardConcept":null,"objectCompound.concept.conceptCode":null,"objectCompound.concept.validStartDate":null,"objectCompound.concept.validEndDate":null,"objectCompound.concept.invalid_reason":null,"precipitantCompound.id":null,"precipitantCompound.name":null,"precipitantCompound.unii":null,"precipitantCompound.inChIKey":null,"precipitantCompound.publicDescription":null,"precipitantCompound.internalComment":null,"precipitantCompound.conceptId":null,"precipitantCompound.enantiomerOfId":null,"precipitantCompound.concept.conceptId":null,"precipitantCompound.concept.conceptName":null,"precipitantCompound.concept.domainId":null,"precipitantCompound.concept.vocabularyId":null,"precipitantCompound.concept.conceptClassId":null,"precipitantCompound.concept.standardConcept":null,"precipitantCompound.concept.conceptCode":null,"precipitantCompound.concept.validStartDate":null,"precipitantCompound.concept.validEndDate":null,"precipitantCompound.concept.invalid_reason":null,"objectMetaboliteCompound.id":null,"objectMetaboliteCompound.name":null,"objectMetaboliteCompound.unii":null,"objectMetaboliteCompound.inChIKey":null,"objectMetaboliteCompound.publicDescription":null,"objectMetaboliteCompound.internalComment":null,"objectMetaboliteCompound.conceptId":null,"objectMetaboliteCompound.enantiomerOfId":null,"objectMetaboliteCompound.concept.conceptId":null,"objectMetaboliteCompound.concept.conceptName":null,"objectMetaboliteCompound.concept.domainId":null,"objectMetaboliteCompound.concept.vocabularyId":null,"objectMetaboliteCompound.concept.conceptClassId":null,"objectMetaboliteCompound.concept.standardConcept":null,"objectMetaboliteCompound.concept.conceptCode":null,"objectMetaboliteCompound.concept.validStartDate":null,"objectMetaboliteCompound.concept.validEndDate":null,"objectMetaboliteCompound.concept.invalid_reason":null,"enzymes.id":null,"enzymes.name":null,"enzymes.conceptId":null,"enzymes.experiment_enzyme_xref.enzymeId":null,"enzymes.experiment_enzyme_xref.experimentId":null,"transporters.id":null,"transporters.name":null,"transporters.conceptId":null,"transporters.experiment_transporter_xref.experimentId":null,"transporters.experiment_transporter_xref.transporterId":null,"quantifiedMetabolites.id":229,"quantifiedMetabolites.name":"liquiritin","quantifiedMetabolites.unii":null,"quantifiedMetabolites.inChIKey":"DEMKZLAVQYISIA-ZRWXNEIDSA-N","quantifiedMetabolites.publicDescription":null,"quantifiedMetabolites.internalComment":null,"quantifiedMetabolites.conceptId":null,"quantifiedMetabolites.enantiomerOfId":null,"quantifiedMetabolites.experiment_quantified_metabolite_xref.com":229,"quantifiedMetabolites.experiment_quantified_metabolite_xref.exp":776,"study.id":155,"study.uid":"NPDI-Lm3PvA","study.name":"Cytochrome P450 inhibition by licorice species Glycyrrhiza uralensis and fourteen licorice constituents","study.napdiIdentifier":null,"study.overallSummary":"

The potential of licorice dietary supplements to interact with drug metabolism was evaluated by testing extracts of botanically identified licorice species Glycyrrhiza uralensis and 14 isolated licorice compounds for inhibition of 9 cytochrome P450 enzymes using a UHPLC-MS/MS cocktail assay. G. uralensis strongly inhibited CYP2B6 and moderately inhibited CYP2C8, CYP2C9 and CYP2C19. The licorice compounds isoliquiritigenin, licoricidin, licochalcone A, 18β-glycyrrhetinic acid, and glycycoumarin inhibited one or more members of the CYP2C family of enzymes. Glycycoumarin and licochalcone A inhibited CYP1A2, but only glycycoumarin inhibited CYP2B6. Isoliquiritigenin, glabridin and licoricidin competitively inhibited CYP3A4. The licorice species commonly used in botanical dietary supplements have varying potential for drug-botanical interactions as inhibitors of cytochrome P450 isoforms. Each species of licorice displays a unique profile of constituents with potential for drug interactions.

","study.pubmedId":28774812,"study.embaseId":null,"study.croIdentifier":"UIC","study.croInformation":"UIC","study.dateStart":"2017-03-22T00:00:00.000Z","study.dateEnd":"2017-07-30T00:00:00.000Z","study.internalComment":null,"study.status":"published","study.compoundId":null,"study.naturalProductUid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProductSampleId":null,"study.studySourceTypeId":1,"study.naturalProduct.uid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProduct.binomial":"Glycyrrhiza uralensis","study.naturalProduct.name":"Licorice","study.naturalProduct.itis":null,"study.naturalProduct.srs":"dc6f848b-18bb-4620-81b1-b2af39721bd9","study.naturalProduct.source_id":"","study.naturalProduct.conceptId":null,"study.naturalProduct.concept.conceptId":null,"study.naturalProduct.concept.conceptName":null,"study.naturalProduct.concept.domainId":null,"study.naturalProduct.concept.vocabularyId":null,"study.naturalProduct.concept.conceptClassId":null,"study.naturalProduct.concept.standardConcept":null,"study.naturalProduct.concept.conceptCode":null,"study.naturalProduct.concept.validStartDate":null,"study.naturalProduct.concept.validEndDate":null,"study.naturalProduct.concept.invalid_reason":null,"study.compound.id":null,"study.compound.name":null,"study.compound.unii":null,"study.compound.inChIKey":null,"study.compound.publicDescription":null,"study.compound.internalComment":null,"study.compound.conceptId":null,"study.compound.enantiomerOfId":null,"study.studySourceType.id":1,"study.studySourceType.name":"Published report","testSystem.id":null,"testSystem.name":null,"testSystem.sortOrder":null,"testSystem.conceptId":null,"testSystem.categoryId":null,"testSystem.category.id":null,"testSystem.category.name":null,"testSystem.category.sortOrder":null,"testSystem.category.requiresCytochromeB5":null,"cytochromeB5.id":null,"cytochromeB5.name":null,"cytochromeB5.sortOrder":null,"cytochromeB5.conceptId":null,"controlDataExperiment.id":null,"controlDataExperiment.uid":null,"controlDataExperiment.name":null,"controlDataExperiment.overallEffect":null,"controlDataExperiment.isControlData":null,"controlDataExperiment.isIc50Shift":null,"controlDataExperiment.croCutoff":null,"controlDataExperiment.croIdentifier":null,"controlDataExperiment.comment":null,"controlDataExperiment.experimentalConditionsComment":null,"controlDataExperiment.resultsComment":null,"controlDataExperiment.internalComment":null,"controlDataExperiment.objectCompoundId":null,"controlDataExperiment.objectMetaboliteCompoundId":null,"controlDataExperiment.precipitantCompoundId":null,"controlDataExperiment.cytochromeB5Id":null,"controlDataExperiment.studyId":null,"controlDataExperiment.experimentTypeId":null,"controlDataExperiment.testSystemId":null,"controlDataExperiment.ic50ShiftExperimentId":null,"controlDataExperiment.controlDataExperimentId":null,"controlDataExperiment.controlDataForExperimentId":null,"controlDataExperiment.naturalProductSampleId":null,"controlDataExperiment.experimentType.id":null,"controlDataExperiment.experimentType.name":null,"controlDataExperiment.experimentType.isInVitro":null,"controlDataExperiment.experimentType.isTransporter":null,"controlDataExperiment.experimentType.isEnzyme":null,"controlDataExperiment.experimentType.purl":null,"controlDataExperiment.objectCompound.id":null,"controlDataExperiment.objectCompound.name":null,"controlDataExperiment.objectCompound.unii":null,"controlDataExperiment.objectCompound.inChIKey":null,"controlDataExperiment.objectCompound.publicDescription":null,"controlDataExperiment.objectCompound.internalComment":null,"controlDataExperiment.objectCompound.conceptId":null,"controlDataExperiment.objectCompound.enantiomerOfId":null,"controlDataExperiment.precipitantCompound.id":null,"controlDataExperiment.precipitantCompound.name":null,"controlDataExperiment.precipitantCompound.unii":null,"controlDataExperiment.precipitantCompound.inChIKey":null,"controlDataExperiment.precipitantCompound.publicDescription":null,"controlDataExperiment.precipitantCompound.internalComment":null,"controlDataExperiment.precipitantCompound.conceptId":null,"controlDataExperiment.precipitantCompound.enantiomerOfId":null,"controlDataExperiment.objectMetaboliteCompound.id":null,"controlDataExperiment.objectMetaboliteCompound.name":null,"controlDataExperiment.objectMetaboliteCompound.unii":null,"controlDataExperiment.objectMetaboliteCompound.inChIKey":null,"controlDataExperiment.objectMetaboliteCompound.publicDescriptio":null,"controlDataExperiment.objectMetaboliteCompound.internalComment":null,"controlDataExperiment.objectMetaboliteCompound.conceptId":null,"controlDataExperiment.objectMetaboliteCompound.enantiomerOfId":null,"controlDataExperiment.enzymes.id":null,"controlDataExperiment.enzymes.name":null,"controlDataExperiment.enzymes.conceptId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.enzymeId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.experiment":null,"controlDataExperiment.transporters.id":null,"controlDataExperiment.transporters.name":null,"controlDataExperiment.transporters.conceptId":null,"controlDataExperiment.transporters.experiment_transporter_xref.":null,"controlDataExperiment.quantifiedMetabolites.id":null,"controlDataExperiment.quantifiedMetabolites.name":null,"controlDataExperiment.quantifiedMetabolites.unii":null,"controlDataExperiment.quantifiedMetabolites.inChIKey":null,"controlDataExperiment.quantifiedMetabolites.publicDescription":null,"controlDataExperiment.quantifiedMetabolites.internalComment":null,"controlDataExperiment.quantifiedMetabolites.conceptId":null,"controlDataExperiment.quantifiedMetabolites.enantiomerOfId":null,"controlDataExperiment.quantifiedMetabolites.experiment_quantifi":null,"experimentAnswers.id":14137,"experimentAnswers.text":"ethanol, isopropanol, water (90:5:5, v/v/v)","experimentAnswers.answerId":null,"experimentAnswers.experimentId":776,"experimentAnswers.questionId":1104,"experimentAnswers.question.id":1104,"experimentAnswers.question.text":"Solvent used","experimentAnswers.question.required":false,"experimentAnswers.question.maxAnswers":1,"experimentAnswers.question.type":"STRING","experimentAnswers.question.conceptId":null,"experimentAnswers.question.answers.id":null,"experimentAnswers.question.answers.text":null,"experimentAnswers.question.answers.sortOrder":null,"experimentAnswers.question.answers.conceptId":null,"experimentAnswers.question.answers.questionId":null,"experimentAnswers.answer.id":null,"experimentAnswers.answer.text":null,"experimentAnswers.answer.sortOrder":null,"experimentAnswers.answer.conceptId":null,"experimentAnswers.answer.questionId":null},{"id":776,"uid":"NPDI-ebe-GA","name":"Chemical characterization of Licorice, Glycyrrhiza uralensis","overallEffect":0,"isControlData":false,"isIc50Shift":false,"croCutoff":null,"croIdentifier":null,"comment":null,"experimentalConditionsComment":null,"resultsComment":"% weight compound/weight extract

glabridin, licochalcone a had quantities of 0 and were excluded from the results","internalComment":null,"objectCompoundId":null,"objectMetaboliteCompoundId":null,"precipitantCompoundId":null,"cytochromeB5Id":null,"studyId":155,"experimentTypeId":10,"testSystemId":null,"ic50ShiftExperimentId":null,"controlDataExperimentId":null,"controlDataForExperimentId":null,"naturalProductSampleId":null,"experimentType.id":10,"experimentType.name":"Characterization of Material","experimentType.isInVitro":false,"experimentType.isTransporter":false,"experimentType.isEnzyme":false,"experimentType.purl":"http://purl.obolibrary.org/obo/DIDEO_00005004","objectCompound.id":null,"objectCompound.name":null,"objectCompound.unii":null,"objectCompound.inChIKey":null,"objectCompound.publicDescription":null,"objectCompound.internalComment":null,"objectCompound.conceptId":null,"objectCompound.enantiomerOfId":null,"objectCompound.concept.conceptId":null,"objectCompound.concept.conceptName":null,"objectCompound.concept.domainId":null,"objectCompound.concept.vocabularyId":null,"objectCompound.concept.conceptClassId":null,"objectCompound.concept.standardConcept":null,"objectCompound.concept.conceptCode":null,"objectCompound.concept.validStartDate":null,"objectCompound.concept.validEndDate":null,"objectCompound.concept.invalid_reason":null,"precipitantCompound.id":null,"precipitantCompound.name":null,"precipitantCompound.unii":null,"precipitantCompound.inChIKey":null,"precipitantCompound.publicDescription":null,"precipitantCompound.internalComment":null,"precipitantCompound.conceptId":null,"precipitantCompound.enantiomerOfId":null,"precipitantCompound.concept.conceptId":null,"precipitantCompound.concept.conceptName":null,"precipitantCompound.concept.domainId":null,"precipitantCompound.concept.vocabularyId":null,"precipitantCompound.concept.conceptClassId":null,"precipitantCompound.concept.standardConcept":null,"precipitantCompound.concept.conceptCode":null,"precipitantCompound.concept.validStartDate":null,"precipitantCompound.concept.validEndDate":null,"precipitantCompound.concept.invalid_reason":null,"objectMetaboliteCompound.id":null,"objectMetaboliteCompound.name":null,"objectMetaboliteCompound.unii":null,"objectMetaboliteCompound.inChIKey":null,"objectMetaboliteCompound.publicDescription":null,"objectMetaboliteCompound.internalComment":null,"objectMetaboliteCompound.conceptId":null,"objectMetaboliteCompound.enantiomerOfId":null,"objectMetaboliteCompound.concept.conceptId":null,"objectMetaboliteCompound.concept.conceptName":null,"objectMetaboliteCompound.concept.domainId":null,"objectMetaboliteCompound.concept.vocabularyId":null,"objectMetaboliteCompound.concept.conceptClassId":null,"objectMetaboliteCompound.concept.standardConcept":null,"objectMetaboliteCompound.concept.conceptCode":null,"objectMetaboliteCompound.concept.validStartDate":null,"objectMetaboliteCompound.concept.validEndDate":null,"objectMetaboliteCompound.concept.invalid_reason":null,"enzymes.id":null,"enzymes.name":null,"enzymes.conceptId":null,"enzymes.experiment_enzyme_xref.enzymeId":null,"enzymes.experiment_enzyme_xref.experimentId":null,"transporters.id":null,"transporters.name":null,"transporters.conceptId":null,"transporters.experiment_transporter_xref.experimentId":null,"transporters.experiment_transporter_xref.transporterId":null,"quantifiedMetabolites.id":229,"quantifiedMetabolites.name":"liquiritin","quantifiedMetabolites.unii":null,"quantifiedMetabolites.inChIKey":"DEMKZLAVQYISIA-ZRWXNEIDSA-N","quantifiedMetabolites.publicDescription":null,"quantifiedMetabolites.internalComment":null,"quantifiedMetabolites.conceptId":null,"quantifiedMetabolites.enantiomerOfId":null,"quantifiedMetabolites.experiment_quantified_metabolite_xref.com":229,"quantifiedMetabolites.experiment_quantified_metabolite_xref.exp":776,"study.id":155,"study.uid":"NPDI-Lm3PvA","study.name":"Cytochrome P450 inhibition by licorice species Glycyrrhiza uralensis and fourteen licorice constituents","study.napdiIdentifier":null,"study.overallSummary":"

The potential of licorice dietary supplements to interact with drug metabolism was evaluated by testing extracts of botanically identified licorice species Glycyrrhiza uralensis and 14 isolated licorice compounds for inhibition of 9 cytochrome P450 enzymes using a UHPLC-MS/MS cocktail assay. G. uralensis strongly inhibited CYP2B6 and moderately inhibited CYP2C8, CYP2C9 and CYP2C19. The licorice compounds isoliquiritigenin, licoricidin, licochalcone A, 18β-glycyrrhetinic acid, and glycycoumarin inhibited one or more members of the CYP2C family of enzymes. Glycycoumarin and licochalcone A inhibited CYP1A2, but only glycycoumarin inhibited CYP2B6. Isoliquiritigenin, glabridin and licoricidin competitively inhibited CYP3A4. The licorice species commonly used in botanical dietary supplements have varying potential for drug-botanical interactions as inhibitors of cytochrome P450 isoforms. Each species of licorice displays a unique profile of constituents with potential for drug interactions.

","study.pubmedId":28774812,"study.embaseId":null,"study.croIdentifier":"UIC","study.croInformation":"UIC","study.dateStart":"2017-03-22T00:00:00.000Z","study.dateEnd":"2017-07-30T00:00:00.000Z","study.internalComment":null,"study.status":"published","study.compoundId":null,"study.naturalProductUid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProductSampleId":null,"study.studySourceTypeId":1,"study.naturalProduct.uid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProduct.binomial":"Glycyrrhiza uralensis","study.naturalProduct.name":"Licorice","study.naturalProduct.itis":null,"study.naturalProduct.srs":"dc6f848b-18bb-4620-81b1-b2af39721bd9","study.naturalProduct.source_id":"","study.naturalProduct.conceptId":null,"study.naturalProduct.concept.conceptId":null,"study.naturalProduct.concept.conceptName":null,"study.naturalProduct.concept.domainId":null,"study.naturalProduct.concept.vocabularyId":null,"study.naturalProduct.concept.conceptClassId":null,"study.naturalProduct.concept.standardConcept":null,"study.naturalProduct.concept.conceptCode":null,"study.naturalProduct.concept.validStartDate":null,"study.naturalProduct.concept.validEndDate":null,"study.naturalProduct.concept.invalid_reason":null,"study.compound.id":null,"study.compound.name":null,"study.compound.unii":null,"study.compound.inChIKey":null,"study.compound.publicDescription":null,"study.compound.internalComment":null,"study.compound.conceptId":null,"study.compound.enantiomerOfId":null,"study.studySourceType.id":1,"study.studySourceType.name":"Published report","testSystem.id":null,"testSystem.name":null,"testSystem.sortOrder":null,"testSystem.conceptId":null,"testSystem.categoryId":null,"testSystem.category.id":null,"testSystem.category.name":null,"testSystem.category.sortOrder":null,"testSystem.category.requiresCytochromeB5":null,"cytochromeB5.id":null,"cytochromeB5.name":null,"cytochromeB5.sortOrder":null,"cytochromeB5.conceptId":null,"controlDataExperiment.id":null,"controlDataExperiment.uid":null,"controlDataExperiment.name":null,"controlDataExperiment.overallEffect":null,"controlDataExperiment.isControlData":null,"controlDataExperiment.isIc50Shift":null,"controlDataExperiment.croCutoff":null,"controlDataExperiment.croIdentifier":null,"controlDataExperiment.comment":null,"controlDataExperiment.experimentalConditionsComment":null,"controlDataExperiment.resultsComment":null,"controlDataExperiment.internalComment":null,"controlDataExperiment.objectCompoundId":null,"controlDataExperiment.objectMetaboliteCompoundId":null,"controlDataExperiment.precipitantCompoundId":null,"controlDataExperiment.cytochromeB5Id":null,"controlDataExperiment.studyId":null,"controlDataExperiment.experimentTypeId":null,"controlDataExperiment.testSystemId":null,"controlDataExperiment.ic50ShiftExperimentId":null,"controlDataExperiment.controlDataExperimentId":null,"controlDataExperiment.controlDataForExperimentId":null,"controlDataExperiment.naturalProductSampleId":null,"controlDataExperiment.experimentType.id":null,"controlDataExperiment.experimentType.name":null,"controlDataExperiment.experimentType.isInVitro":null,"controlDataExperiment.experimentType.isTransporter":null,"controlDataExperiment.experimentType.isEnzyme":null,"controlDataExperiment.experimentType.purl":null,"controlDataExperiment.objectCompound.id":null,"controlDataExperiment.objectCompound.name":null,"controlDataExperiment.objectCompound.unii":null,"controlDataExperiment.objectCompound.inChIKey":null,"controlDataExperiment.objectCompound.publicDescription":null,"controlDataExperiment.objectCompound.internalComment":null,"controlDataExperiment.objectCompound.conceptId":null,"controlDataExperiment.objectCompound.enantiomerOfId":null,"controlDataExperiment.precipitantCompound.id":null,"controlDataExperiment.precipitantCompound.name":null,"controlDataExperiment.precipitantCompound.unii":null,"controlDataExperiment.precipitantCompound.inChIKey":null,"controlDataExperiment.precipitantCompound.publicDescription":null,"controlDataExperiment.precipitantCompound.internalComment":null,"controlDataExperiment.precipitantCompound.conceptId":null,"controlDataExperiment.precipitantCompound.enantiomerOfId":null,"controlDataExperiment.objectMetaboliteCompound.id":null,"controlDataExperiment.objectMetaboliteCompound.name":null,"controlDataExperiment.objectMetaboliteCompound.unii":null,"controlDataExperiment.objectMetaboliteCompound.inChIKey":null,"controlDataExperiment.objectMetaboliteCompound.publicDescriptio":null,"controlDataExperiment.objectMetaboliteCompound.internalComment":null,"controlDataExperiment.objectMetaboliteCompound.conceptId":null,"controlDataExperiment.objectMetaboliteCompound.enantiomerOfId":null,"controlDataExperiment.enzymes.id":null,"controlDataExperiment.enzymes.name":null,"controlDataExperiment.enzymes.conceptId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.enzymeId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.experiment":null,"controlDataExperiment.transporters.id":null,"controlDataExperiment.transporters.name":null,"controlDataExperiment.transporters.conceptId":null,"controlDataExperiment.transporters.experiment_transporter_xref.":null,"controlDataExperiment.quantifiedMetabolites.id":null,"controlDataExperiment.quantifiedMetabolites.name":null,"controlDataExperiment.quantifiedMetabolites.unii":null,"controlDataExperiment.quantifiedMetabolites.inChIKey":null,"controlDataExperiment.quantifiedMetabolites.publicDescription":null,"controlDataExperiment.quantifiedMetabolites.internalComment":null,"controlDataExperiment.quantifiedMetabolites.conceptId":null,"controlDataExperiment.quantifiedMetabolites.enantiomerOfId":null,"controlDataExperiment.quantifiedMetabolites.experiment_quantifi":null,"experimentAnswers.id":14138,"experimentAnswers.text":"species checked with DNA barcoding, and comparison with voucher specimens at the Field Museum of Natural History, Chicago.","experimentAnswers.answerId":null,"experimentAnswers.experimentId":776,"experimentAnswers.questionId":1106,"experimentAnswers.question.id":1106,"experimentAnswers.question.text":"Material preparation additional information","experimentAnswers.question.required":false,"experimentAnswers.question.maxAnswers":1,"experimentAnswers.question.type":"TEXT","experimentAnswers.question.conceptId":null,"experimentAnswers.question.answers.id":null,"experimentAnswers.question.answers.text":null,"experimentAnswers.question.answers.sortOrder":null,"experimentAnswers.question.answers.conceptId":null,"experimentAnswers.question.answers.questionId":null,"experimentAnswers.answer.id":null,"experimentAnswers.answer.text":null,"experimentAnswers.answer.sortOrder":null,"experimentAnswers.answer.conceptId":null,"experimentAnswers.answer.questionId":null},{"id":776,"uid":"NPDI-ebe-GA","name":"Chemical characterization of Licorice, Glycyrrhiza uralensis","overallEffect":0,"isControlData":false,"isIc50Shift":false,"croCutoff":null,"croIdentifier":null,"comment":null,"experimentalConditionsComment":null,"resultsComment":"% weight compound/weight extract

glabridin, licochalcone a had quantities of 0 and were excluded from the results","internalComment":null,"objectCompoundId":null,"objectMetaboliteCompoundId":null,"precipitantCompoundId":null,"cytochromeB5Id":null,"studyId":155,"experimentTypeId":10,"testSystemId":null,"ic50ShiftExperimentId":null,"controlDataExperimentId":null,"controlDataForExperimentId":null,"naturalProductSampleId":null,"experimentType.id":10,"experimentType.name":"Characterization of Material","experimentType.isInVitro":false,"experimentType.isTransporter":false,"experimentType.isEnzyme":false,"experimentType.purl":"http://purl.obolibrary.org/obo/DIDEO_00005004","objectCompound.id":null,"objectCompound.name":null,"objectCompound.unii":null,"objectCompound.inChIKey":null,"objectCompound.publicDescription":null,"objectCompound.internalComment":null,"objectCompound.conceptId":null,"objectCompound.enantiomerOfId":null,"objectCompound.concept.conceptId":null,"objectCompound.concept.conceptName":null,"objectCompound.concept.domainId":null,"objectCompound.concept.vocabularyId":null,"objectCompound.concept.conceptClassId":null,"objectCompound.concept.standardConcept":null,"objectCompound.concept.conceptCode":null,"objectCompound.concept.validStartDate":null,"objectCompound.concept.validEndDate":null,"objectCompound.concept.invalid_reason":null,"precipitantCompound.id":null,"precipitantCompound.name":null,"precipitantCompound.unii":null,"precipitantCompound.inChIKey":null,"precipitantCompound.publicDescription":null,"precipitantCompound.internalComment":null,"precipitantCompound.conceptId":null,"precipitantCompound.enantiomerOfId":null,"precipitantCompound.concept.conceptId":null,"precipitantCompound.concept.conceptName":null,"precipitantCompound.concept.domainId":null,"precipitantCompound.concept.vocabularyId":null,"precipitantCompound.concept.conceptClassId":null,"precipitantCompound.concept.standardConcept":null,"precipitantCompound.concept.conceptCode":null,"precipitantCompound.concept.validStartDate":null,"precipitantCompound.concept.validEndDate":null,"precipitantCompound.concept.invalid_reason":null,"objectMetaboliteCompound.id":null,"objectMetaboliteCompound.name":null,"objectMetaboliteCompound.unii":null,"objectMetaboliteCompound.inChIKey":null,"objectMetaboliteCompound.publicDescription":null,"objectMetaboliteCompound.internalComment":null,"objectMetaboliteCompound.conceptId":null,"objectMetaboliteCompound.enantiomerOfId":null,"objectMetaboliteCompound.concept.conceptId":null,"objectMetaboliteCompound.concept.conceptName":null,"objectMetaboliteCompound.concept.domainId":null,"objectMetaboliteCompound.concept.vocabularyId":null,"objectMetaboliteCompound.concept.conceptClassId":null,"objectMetaboliteCompound.concept.standardConcept":null,"objectMetaboliteCompound.concept.conceptCode":null,"objectMetaboliteCompound.concept.validStartDate":null,"objectMetaboliteCompound.concept.validEndDate":null,"objectMetaboliteCompound.concept.invalid_reason":null,"enzymes.id":null,"enzymes.name":null,"enzymes.conceptId":null,"enzymes.experiment_enzyme_xref.enzymeId":null,"enzymes.experiment_enzyme_xref.experimentId":null,"transporters.id":null,"transporters.name":null,"transporters.conceptId":null,"transporters.experiment_transporter_xref.experimentId":null,"transporters.experiment_transporter_xref.transporterId":null,"quantifiedMetabolites.id":229,"quantifiedMetabolites.name":"liquiritin","quantifiedMetabolites.unii":null,"quantifiedMetabolites.inChIKey":"DEMKZLAVQYISIA-ZRWXNEIDSA-N","quantifiedMetabolites.publicDescription":null,"quantifiedMetabolites.internalComment":null,"quantifiedMetabolites.conceptId":null,"quantifiedMetabolites.enantiomerOfId":null,"quantifiedMetabolites.experiment_quantified_metabolite_xref.com":229,"quantifiedMetabolites.experiment_quantified_metabolite_xref.exp":776,"study.id":155,"study.uid":"NPDI-Lm3PvA","study.name":"Cytochrome P450 inhibition by licorice species Glycyrrhiza uralensis and fourteen licorice constituents","study.napdiIdentifier":null,"study.overallSummary":"

The potential of licorice dietary supplements to interact with drug metabolism was evaluated by testing extracts of botanically identified licorice species Glycyrrhiza uralensis and 14 isolated licorice compounds for inhibition of 9 cytochrome P450 enzymes using a UHPLC-MS/MS cocktail assay. G. uralensis strongly inhibited CYP2B6 and moderately inhibited CYP2C8, CYP2C9 and CYP2C19. The licorice compounds isoliquiritigenin, licoricidin, licochalcone A, 18β-glycyrrhetinic acid, and glycycoumarin inhibited one or more members of the CYP2C family of enzymes. Glycycoumarin and licochalcone A inhibited CYP1A2, but only glycycoumarin inhibited CYP2B6. Isoliquiritigenin, glabridin and licoricidin competitively inhibited CYP3A4. The licorice species commonly used in botanical dietary supplements have varying potential for drug-botanical interactions as inhibitors of cytochrome P450 isoforms. Each species of licorice displays a unique profile of constituents with potential for drug interactions.

","study.pubmedId":28774812,"study.embaseId":null,"study.croIdentifier":"UIC","study.croInformation":"UIC","study.dateStart":"2017-03-22T00:00:00.000Z","study.dateEnd":"2017-07-30T00:00:00.000Z","study.internalComment":null,"study.status":"published","study.compoundId":null,"study.naturalProductUid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProductSampleId":null,"study.studySourceTypeId":1,"study.naturalProduct.uid":"NP-01b14067-1b74-4ddb-a95e-84cf2f220c46","study.naturalProduct.binomial":"Glycyrrhiza uralensis","study.naturalProduct.name":"Licorice","study.naturalProduct.itis":null,"study.naturalProduct.srs":"dc6f848b-18bb-4620-81b1-b2af39721bd9","study.naturalProduct.source_id":"","study.naturalProduct.conceptId":null,"study.naturalProduct.concept.conceptId":null,"study.naturalProduct.concept.conceptName":null,"study.naturalProduct.concept.domainId":null,"study.naturalProduct.concept.vocabularyId":null,"study.naturalProduct.concept.conceptClassId":null,"study.naturalProduct.concept.standardConcept":null,"study.naturalProduct.concept.conceptCode":null,"study.naturalProduct.concept.validStartDate":null,"study.naturalProduct.concept.validEndDate":null,"study.naturalProduct.concept.invalid_reason":null,"study.compound.id":null,"study.compound.name":null,"study.compound.unii":null,"study.compound.inChIKey":null,"study.compound.publicDescription":null,"study.compound.internalComment":null,"study.compound.conceptId":null,"study.compound.enantiomerOfId":null,"study.studySourceType.id":1,"study.studySourceType.name":"Published report","testSystem.id":null,"testSystem.name":null,"testSystem.sortOrder":null,"testSystem.conceptId":null,"testSystem.categoryId":null,"testSystem.category.id":null,"testSystem.category.name":null,"testSystem.category.sortOrder":null,"testSystem.category.requiresCytochromeB5":null,"cytochromeB5.id":null,"cytochromeB5.name":null,"cytochromeB5.sortOrder":null,"cytochromeB5.conceptId":null,"controlDataExperiment.id":null,"controlDataExperiment.uid":null,"controlDataExperiment.name":null,"controlDataExperiment.overallEffect":null,"controlDataExperiment.isControlData":null,"controlDataExperiment.isIc50Shift":null,"controlDataExperiment.croCutoff":null,"controlDataExperiment.croIdentifier":null,"controlDataExperiment.comment":null,"controlDataExperiment.experimentalConditionsComment":null,"controlDataExperiment.resultsComment":null,"controlDataExperiment.internalComment":null,"controlDataExperiment.objectCompoundId":null,"controlDataExperiment.objectMetaboliteCompoundId":null,"controlDataExperiment.precipitantCompoundId":null,"controlDataExperiment.cytochromeB5Id":null,"controlDataExperiment.studyId":null,"controlDataExperiment.experimentTypeId":null,"controlDataExperiment.testSystemId":null,"controlDataExperiment.ic50ShiftExperimentId":null,"controlDataExperiment.controlDataExperimentId":null,"controlDataExperiment.controlDataForExperimentId":null,"controlDataExperiment.naturalProductSampleId":null,"controlDataExperiment.experimentType.id":null,"controlDataExperiment.experimentType.name":null,"controlDataExperiment.experimentType.isInVitro":null,"controlDataExperiment.experimentType.isTransporter":null,"controlDataExperiment.experimentType.isEnzyme":null,"controlDataExperiment.experimentType.purl":null,"controlDataExperiment.objectCompound.id":null,"controlDataExperiment.objectCompound.name":null,"controlDataExperiment.objectCompound.unii":null,"controlDataExperiment.objectCompound.inChIKey":null,"controlDataExperiment.objectCompound.publicDescription":null,"controlDataExperiment.objectCompound.internalComment":null,"controlDataExperiment.objectCompound.conceptId":null,"controlDataExperiment.objectCompound.enantiomerOfId":null,"controlDataExperiment.precipitantCompound.id":null,"controlDataExperiment.precipitantCompound.name":null,"controlDataExperiment.precipitantCompound.unii":null,"controlDataExperiment.precipitantCompound.inChIKey":null,"controlDataExperiment.precipitantCompound.publicDescription":null,"controlDataExperiment.precipitantCompound.internalComment":null,"controlDataExperiment.precipitantCompound.conceptId":null,"controlDataExperiment.precipitantCompound.enantiomerOfId":null,"controlDataExperiment.objectMetaboliteCompound.id":null,"controlDataExperiment.objectMetaboliteCompound.name":null,"controlDataExperiment.objectMetaboliteCompound.unii":null,"controlDataExperiment.objectMetaboliteCompound.inChIKey":null,"controlDataExperiment.objectMetaboliteCompound.publicDescriptio":null,"controlDataExperiment.objectMetaboliteCompound.internalComment":null,"controlDataExperiment.objectMetaboliteCompound.conceptId":null,"controlDataExperiment.objectMetaboliteCompound.enantiomerOfId":null,"controlDataExperiment.enzymes.id":null,"controlDataExperiment.enzymes.name":null,"controlDataExperiment.enzymes.conceptId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.enzymeId":null,"controlDataExperiment.enzymes.experiment_enzyme_xref.experiment":null,"controlDataExperiment.transporters.id":null,"controlDataExperiment.transporters.name":null,"controlDataExperiment.transporters.conceptId":null,"controlDataExperiment.transporters.experiment_transporter_xref.":null,"controlDataExperiment.quantifiedMetabolites.id":null,"controlDataExperiment.quantifiedMetabolites.name":null,"controlDataExperiment.quantifiedMetabolites.unii":null,"controlDataExperiment.quantifiedMetabolites.inChIKey":null,"controlDataExperiment.quantifiedMetabolites.publicDescription":null,"controlDataExperiment.quantifiedMetabolites.internalComment":null,"controlDataExperiment.quantifiedMetabolites.conceptId":null,"controlDataExperiment.quantifiedMetabolites.enantiomerOfId":null,"controlDataExperiment.quantifiedMetabolites.experiment_quantifi":null,"experimentAnswers.id":14139,"experimentAnswers.text":"UHPLC-MS/MS","experimentAnswers.answerId":null,"experimentAnswers.experimentId":776,"experimentAnswers.questionId":1113,"experimentAnswers.question.id":1113,"experimentAnswers.question.text":"Mass spectrometry instrument used","experimentAnswers.question.required":false,"experimentAnswers.question.maxAnswers":1,"experimentAnswers.question.type":"STRING","experimentAnswers.question.conceptId":null,"experimentAnswers.question.answers.id":null,"experimentAnswers.question.answers.text":null,"experimentAnswers.question.answers.sortOrder":null,"experimentAnswers.question.answers.conceptId":null,"experimentAnswers.question.answers.questionId":null,"experimentAnswers.answer.id":null,"experimentAnswers.answer.text":null,"experimentAnswers.answer.sortOrder":null,"experimentAnswers.answer.conceptId":null,"experimentAnswers.answer.questionId":null}]