Improving CYP2C19 phenotyping using stereoselective omeprazole and 5-hydroxy-omeprazole metabolic ratios.

IF 2.7 4区 医学 Q2 PHARMACOLOGY & PHARMACY Basic & Clinical Pharmacology & Toxicology Pub Date : 2024-10-09 DOI:10.1111/bcpt.14095
Kenza Abouir, Emmanuel Varesio, Julien Déglon, Caroline Samer, Youssef Daali
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Abstract

Omeprazole (OME) is a CYP2C19 phenotyping probe, marketed as a racemic (S)/(R) mixture or as an S-enantiomer. Both CYP2C19 and CYP3A4 enzymes mediate (R)-OME hydroxylation to (R)-5-hydroxyomeprazole, while (S)-OME is exclusively hydroxylated via CYP2C19. This study investigates OME and its 5-hydroxymetabolite enantiomers' pharmacokinetics using data from two studies involving healthy volunteers. In Study A, volunteers received OME alone in Session 1, OME combined with voriconazole and fluvoxamine in Session 2 and finally OME with rifampicin in Session 3. In Study B, volunteers received OME alone in Session 1, OME combined with voriconazole in Session 2 and finally OME with fluvoxamine in Session 3. Despite low metabolic ratio values of (S)-OME, detectable modulation of CYP2C19 activity suggests both (R)- and (S)-OME isomers could effectively assess CYP2C19 activity. Further research is needed for precise cut-offs in different phenotype groups.

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利用立体选择性奥美拉唑和 5-羟基奥美拉唑代谢比率改进 CYP2C19 表型分析。
奥美拉唑(OME)是一种 CYP2C19 表型探针,以外消旋(S)/(R)混合物或 S-对映体的形式销售。CYP2C19 和 CYP3A4 两种酶均介导 (R)-OME 羟化成 (R)-5-羟基奥美拉唑,而 (S)-OME 则完全通过 CYP2C19 羟化。本研究利用两项涉及健康志愿者的研究数据,对 OME 及其 5-羟基代谢物对映体的药代动力学进行了调查。在研究 A 中,志愿者在第一阶段单独服用了奥美拉唑,在第二阶段与伏立康唑和氟伏沙明合用了奥美拉唑,最后在第三阶段与利福平合用了奥美拉唑。在研究 B 中,志愿者在第一环节只接受奥美拉唑治疗,在第二环节接受奥美拉唑与伏立康唑联合治疗,最后在第三环节接受奥美拉唑与氟伏沙明联合治疗。尽管(S)-OME的代谢比值较低,但可检测到对CYP2C19活性的调节,这表明(R)-和(S)-OME异构体均可有效评估CYP2C19活性。需要进一步研究不同表型组的精确临界值。
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来源期刊
Basic & Clinical Pharmacology & Toxicology
Basic & Clinical Pharmacology & Toxicology 医学-毒理学
CiteScore
5.60
自引率
6.50%
发文量
126
审稿时长
1 months
期刊介绍: Basic & Clinical Pharmacology and Toxicology is an independent journal, publishing original scientific research in all fields of toxicology, basic and clinical pharmacology. This includes experimental animal pharmacology and toxicology and molecular (-genetic), biochemical and cellular pharmacology and toxicology. It also includes all aspects of clinical pharmacology: pharmacokinetics, pharmacodynamics, therapeutic drug monitoring, drug/drug interactions, pharmacogenetics/-genomics, pharmacoepidemiology, pharmacovigilance, pharmacoeconomics, randomized controlled clinical trials and rational pharmacotherapy. For all compounds used in the studies, the chemical constitution and composition should be known, also for natural compounds.
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