Phenoconversion Due to Drug–Drug Interactions in CYP2C19 Genotyped Healthy Volunteers

IF 6.3 2区 医学 Q1 PHARMACOLOGY & PHARMACY Clinical Pharmacology & Therapeutics Pub Date : 2024-07-29 DOI:10.1002/cpt.3378
Kenza Abouir, Nadia Exquis, Yvonne Gloor, Youssef Daali, Caroline Flora Samer
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Abstract

To compensate for drug response variability, drug metabolism phenotypes are determined based on the results of genetic testing, and if necessary, drug dosages are adjusted. In some cases, discrepancies between predicted and observed phenotypes (phenoconversion) may occur due to drug–drug interactions caused by concomitant medications. We conducted a prospective, exploratory study to evaluate the risk of CYP2C19 phenoconversion in genotyped healthy volunteers exposed to CYP2C19 inhibitors. Three groups of volunteers were enrolled: CYP2C19 g-RM, g-NM, and g-IM (g- for genetically predicted). All volunteers received as CYP2C19 phenotyping substrate 10 mg omeprazole (OME) alone at the control session and in co-administration with CYP2C19 inhibitors: voriconazole 400 mg and fluvoxamine 50 mg in second and third study sessions, respectively. Phenoconversion occurred in over 80% of healthy volunteers, with variations among genotypic groups, revealing distinct proportions in response to fluvoxamine and voriconazole. Statistically significant differences were observed in mean metabolic ratios between CYP2C19 intermediate metabolizers (g-IMs) with *1/*2 and *2/*17 genotypes, with the *2/*17 group exhibiting lower ratios, and distinctions were noted between genotypic groups, emphasizing the impact of genetic variations on drug metabolism. When reclassified according to CYP2C19 baseline-measured phenotype into p-RM, p-NM, and p-IM (p- for measured phenotype), we observed 100% phenoconversion of p-RMs and a significant phenotype switch in p-NMs, p-IMs, and p-PMs after fluvoxamine and voriconazole, and complete phenoconversion of p-IMs to p-PMs on both inhibitors, emphasizing the impact of genetic variations on the vulnerability to CYP2C19 phenoconversion and the importance of considering both genotyping and phenotyping in predicting drug response.

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在 CYP2C19 基因分型的健康志愿者中,由于药物与药物之间的相互作用而导致的表观转化。
为弥补药物反应的变异性,根据基因检测结果确定药物代谢表型,必要时调整药物剂量。在某些情况下,由于并用药物引起的药物间相互作用,可能会出现预测表型与观察表型之间的差异(表型转换)。我们进行了一项前瞻性探索研究,以评估暴露于 CYP2C19 抑制剂的基因分型健康志愿者的 CYP2C19 表型转换风险。我们招募了三组志愿者:CYP2C19 g-RM、g-NM 和 g-IM(g- 表示基因预测)。所有志愿者都在对照组单独接受了作为 CYP2C19 表型底物的 10 毫克奥美拉唑(OME),并在第二和第三组研究中分别与伏立康唑 400 毫克和氟伏沙明 50 毫克等 CYP2C19 抑制剂联合用药。80%以上的健康志愿者发生了表观转化,不同基因型组之间存在差异,对氟伏沙明和伏立康唑的反应比例也不同。具有 *1/*2 和 *2/*17 基因型的 CYP2C19 中间代谢者(g-IMs)之间的平均代谢比率存在明显的统计学差异,其中 *2/*17 组的比率较低,不同基因型组之间也存在差异,这强调了基因变异对药物代谢的影响。当根据 CYP2C19 基线测量的表型重新分类为 p-RM、p-NM 和 p-IM(p- 表示测量的表型)时,我们观察到 p-RMs 的表型转换率为 100%,而 p-NMs、p-IMs 和 p-PMs 在氟伏沙明和伏立康唑之后的表型转换率为显著、这强调了基因变异对 CYP2C19 表型转换易感性的影响,以及在预测药物反应时同时考虑基因分型和表型的重要性。
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来源期刊
CiteScore
12.70
自引率
7.50%
发文量
290
审稿时长
2 months
期刊介绍: Clinical Pharmacology & Therapeutics (CPT) is the authoritative cross-disciplinary journal in experimental and clinical medicine devoted to publishing advances in the nature, action, efficacy, and evaluation of therapeutics. CPT welcomes original Articles in the emerging areas of translational, predictive and personalized medicine; new therapeutic modalities including gene and cell therapies; pharmacogenomics, proteomics and metabolomics; bioinformation and applied systems biology complementing areas of pharmacokinetics and pharmacodynamics, human investigation and clinical trials, pharmacovigilence, pharmacoepidemiology, pharmacometrics, and population pharmacology.
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