Effect of CYP3A4 Methylation on Tacrolimus Pharmacokinetics.

IF 2.8 4区医学 Q2 MEDICAL LABORATORY TECHNOLOGY

Therapeutic Drug Monitoring Pub Date : 2025-07-08 DOI:10.1097/FTD.0000000000001351

Karel K M Koudijs, Oumaima Etsouli, Costanza L Vallerga, Dirk Jan A R Moes, Bastian N Ruijter, Jesse J Swen, Minneke J Coenraad, Teun van Gelder

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Abstract

Background: Common genetic variants in CYP3A4 together only explain a limited amount of the variability in tacrolimus clearance. This cross-sectional study aimed to explore the extent to which pharmacokinetic variability can be explained by methylation of the CYP3A4 gene.

Methods: Residual tissue material from liver biopsies routinely collected 6 months post-transplantation was used. Inclusion criteria were tacrolimus once daily (Advagraf) in a steady state (ie, no dose change in the previous 3 days); assessment of tacrolimus pharmacokinetics within 3 weeks of the biopsy; and no documented episode of rejection for at least 3 months prior. Patients and liver donor tissue were genotyped. Only patients in which the patient and the donor had a genotype that did not express the CYP3A5 protein were included. The liver biopsy tissue material was then analyzed using an Illumina Infinium MethylationEPIC array.

Results: Of the 28 patients who met the inclusion criteria, 23 passed the quality control assessment required for the methylation analysis. Increased methylation of 1 of the 10 methylation probes within the CYP3A4 gene region (cg19046783) was positively correlated (Spearman correlation coefficient, 0.52) with the dose-normalized area under the concentration versus time curve (AUC)0-24h (P = 0.01). When quantified using univariate linear regression, this probe explained 18% of the variation in the dose-normalized AUC0-24h. Interestingly, cg19046783 had the lowest mean methylation and highest biological variation.

Conclusions: Increased methylation of 1 of the 10 methylation probes within the CYP3A4 gene region (cg19046783) was positively correlated with increased dose-normalized AUC0-24h, which explained 18% of the variation in the dose-normalized AUC0-24h using univariate linear regression.

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CYP3A4甲基化对他克莫司药动学的影响。

背景：CYP3A4基因的常见变异只能解释他克莫司清除率的有限变异性。这项横断面研究旨在探讨CYP3A4基因甲基化在多大程度上可以解释药代动力学变异性。方法：采用肝移植后6个月常规肝活检残余组织材料。纳入标准为每日1次的稳定状态他克莫司（Advagraf）（即前3天没有剂量变化）；活检后3周内他克莫司药代动力学评估；在此之前至少3个月没有排异反应的记录。对患者和供肝组织进行基因分型。仅包括患者和供体具有不表达CYP3A5蛋白的基因型的患者。然后使用Illumina Infinium MethylationEPIC阵列分析肝活检组织材料。结果：在符合纳入标准的28例患者中，23例通过了甲基化分析所需的质量控制评估。CYP3A4基因区域10个甲基化探针中的1个（cg19046783）甲基化增加与浓度-时间曲线（AUC）0-24h下的剂量归一化面积呈正相关（Spearman相关系数为0.52）（P = 0.01）。当使用单变量线性回归进行量化时，该探针解释了剂量归一化AUC0-24h中18%的变化。有趣的是，cg19046783具有最低的平均甲基化和最高的生物变异。结论：CYP3A4基因区域10个甲基化探针（cg19046783）中1个甲基化增加与剂量归一化AUC0-24h增加正相关，单变量线性回归解释了剂量归一化AUC0-24h变化的18%。

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

Therapeutic Drug Monitoring 医学-毒理学

CiteScore

5.00

自引率

8.00%

发文量

213

审稿时长

4-8 weeks

期刊介绍： Therapeutic Drug Monitoring is a peer-reviewed, multidisciplinary journal directed to an audience of pharmacologists, clinical chemists, laboratorians, pharmacists, drug researchers and toxicologists. It fosters the exchange of knowledge among the various disciplines–clinical pharmacology, pathology, toxicology, analytical chemistry–that share a common interest in Therapeutic Drug Monitoring. The journal presents studies detailing the various factors that affect the rate and extent drugs are absorbed, metabolized, and excreted. Regular features include review articles on specific classes of drugs, original articles, case reports, technical notes, and continuing education articles.