A Phase I Trial of the Pharmacokinetic Interaction Between Cannabidiol and Tacrolimus.

IF 6.3 2区医学 Q1 PHARMACOLOGY & PHARMACY Clinical Pharmacology & Therapeutics Pub Date : 2024-11-27 DOI:10.1002/cpt.3504

Gerald C So, Jessica Bo Li Lu, Sachiko Koyama, Ying-Hua Cheng, Debora L Gisch, Kelsey McClara, Paul R Dexter, Asif A Sharfuddin, Jumar Etkins, Emma M Tillman, Travis R Beamon, Zachary Cowsert, Jennifer S Stuart, Zeruesenay Desta, Michael T Eadon

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Abstract

One in six Americans uses cannabidiol-based or cannabis-derived products. Cannabidiol is a substrate of CYP3A, but its role as a potential CYP3A inhibitor remains unclear. We hypothesized that cannabidiol would inhibit CYP3A-mediated metabolism of tacrolimus. This report is an interim analysis of an open-label, three-period, fixed-sequence, crossover study in healthy participants. Participants first received a single dose of tacrolimus 5 mg orally. After washout, participants later received cannabidiol titrated to 5 mg/kg twice daily for 14 days to reach a steady state, followed by a second single dose of tacrolimus 5 mg orally. Tacrolimus concentrations in whole blood were measured by UHPLC-MS/MS method. Pharmacokinetic parameters were calculated by noncompartmental analysis. Twelve participants completed all periods of the study. The maximum concentration (C_max) of tacrolimus increased 4.2-fold (P < 0.0001) with cannabidiol (40.2 ± 13.5 ng/mL) compared with without cannabidiol (9.85 ± 4.63 ng/mL). The area under the concentration-vs.-time curve (AUC_0-∞) increased 3.1-fold (P < 0.0001). No change in half-life (t_1/2) was observed. This study demonstrates that cannabidiol increases tacrolimus exposure. Our data suggest the need for dose reduction in tacrolimus and frequent therapeutic dose monitoring in transplant patients taking cannabidiol concomitantly. Whether this observed interaction occurred due to the inhibition of CYP3A4 and/or CYP3A5 in the liver, intestine, or both, or intestinal drug transporters (e.g., p-glycoprotein) during the first-pass elimination remains to be elucidated.

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大麻二酚与他克莫司药代动力学相互作用的 I 期试验

每六个美国人中就有一人使用大麻二酚或大麻衍生产品。大麻二酚是 CYP3A 的底物，但作为一种潜在的 CYP3A 抑制剂，其作用尚不清楚。我们假设大麻二酚会抑制 CYP3A 介导的他克莫司代谢。本报告是一项对健康参与者进行的开放标签、三期、固定顺序、交叉研究的中期分析。参与者首先口服单剂量他克莫司 5 毫克。经过冲洗后，参与者再服用大麻二酚，剂量为 5 毫克/千克，每天两次，持续 14 天达到稳定状态，然后再口服第二次单剂量 5 毫克他克莫司。采用超高效液相色谱-质谱/质谱法测量全血中他克莫司的浓度。药代动力学参数通过非室分析法计算。有 12 名参与者完成了全部研究。观察到他克莫司的最大浓度（Cmax）增加了 4.2 倍（P 0-∞），增加了 3.1 倍（P 1/2）。这项研究表明，大麻二酚会增加他克莫司的暴露量。我们的数据表明，对于同时服用大麻二酚的移植患者，需要减少他克莫司的剂量并经常进行治疗剂量监测。所观察到的这种相互作用是由于肝脏、肠道或两者中的 CYP3A4 和/或 CYP3A5 受抑制，还是由于肠道药物转运体（如 p-糖蛋白）在首过消除过程中受抑制，还有待进一步阐明。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Clinical Pharmacology & Therapeutics 医学-药学

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.