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美沙酮的药物遗传学:体外和体内的代谢,以及 CYP2B6 多态性变异和儿科处置中的遗传变异性。

Methadone pharmacogenetics in vitro and in vivo: Metabolism by CYP2B6 polymorphic variants and genetic variability in paediatric disposition.

机构信息

Department of Anesthesiology, Duke University, Durham, NC, USA.

Department of Anesthesia and Perioperative Care, University of California, San Francisco, CA, USA.

出版信息

Br J Clin Pharmacol. 2022 Nov;88(11):4881-4893. doi: 10.1111/bcp.15393. Epub 2022 Jun 20.

DOI:10.1111/bcp.15393
PMID:35538637
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10908252/
Abstract

AIMS

Methadone metabolism and clearance are determined principally by polymorphic cytochrome P4502B6 (CYP2B6). Some CYP2B6 allelic variants affect methadone metabolism in vitro and disposition in vivo. We assessed methadone metabolism by CYP2B6 minor variants in vitro. We also assessed the influence of CYP2B6 variants, and P450 oxidoreductase (POR) and CYP2C19 variants, on methadone clearance in surgical patients in vivo.

METHODS

CYP2B6 and P450 oxidoreductase variants were coexpressed with cytochrome b . The metabolism of methadone racemate and enantiomers was measured at therapeutic concentrations and intrinsic clearances were determined. Adolescents receiving methadone for surgery were genotyped for CYP2B6, CYP2C19 and POR, and methadone clearance and metabolite formation clearance were determined.

RESULTS

In vitro, CYP2B6.4 was more active than wild-type CYP2B6.1. CYPs 2B6.5, 2B6.6, 2B6.7, 2B6.9, 2B6.17, 2B6.19 and 2B6.26 were less active. CYPs 2B6.16 and 2B6.18 were inactive. CYP2B6.1 expressed with POR variants POR.28, POR.5 and P228L had lower rates of methadone metabolism than wild-type reductase. In vivo, methadone clinical clearance decreased linearly with the number of CYP2B6 slow metabolizer alleles, but was not different in CYP2C19 slow or rapid metabolizer phenotypes, or in carriers of the POR*28 allele.

CONCLUSIONS

Several CYP2B6 and POR variants were slow metabolizers of methadone in vitro. Polymorphisms in CYP2B6, but not CYP2C19 or P450 reductase, affected methadone clearance in vivo. CYP2B6 polymorphisms 516G>T and 983T>C code for canonical loss of function variants and should be assessed when considering genetic influences on clinical methadone disposition. These complementary translational in vitro and in vivo results inform on pharmacogenetic variability affecting methadone disposition in patients.

摘要

目的

美沙酮的代谢和清除主要由多态细胞色素 P4502B6(CYP2B6)决定。一些 CYP2B6 等位基因变体影响美沙酮在体外的代谢和体内的分布。我们评估了 CYP2B6 次要变体在体外对美沙酮代谢的影响。我们还评估了 CYP2B6 变体、P450 氧化还原酶(POR)和 CYP2C19 变体对体内手术患者美沙酮清除率的影响。

方法

将 CYP2B6 和 P450 氧化还原酶变体与细胞色素 b 共同表达。在治疗浓度下测量美沙酮外消旋体和对映体的代谢,并确定内在清除率。接受手术的青少年接受 CYP2B6、CYP2C19 和 POR 基因分型,并确定美沙酮清除率和代谢产物形成清除率。

结果

在体外,CYP2B6.4 比野生型 CYP2B6.1 更活跃。CYP2B6.5、2B6.6、2B6.7、2B6.9、2B6.17、2B6.19 和 2B6.26 活性较低。CYP2B6.16 和 2B6.18 无活性。与野生型还原酶相比,表达 POR 变体 POR.28、POR.5 和 P228L 的 CYP2B6.1 代谢美沙酮的速度较慢。在体内,美沙酮临床清除率与 CYP2B6 慢代谢者等位基因的数量呈线性下降,但在 CYP2C19 慢代谢或快代谢表型或 POR*28 等位基因携带者中无差异。

结论

几种 CYP2B6 和 POR 变体在体外是美沙酮的慢代谢物。CYP2B6 多态性而不是 CYP2C19 或 P450 还原酶多态性影响体内美沙酮清除率。CYP2B6 多态性 516G>T 和 983T>C 编码经典功能丧失变体,在考虑遗传对临床美沙酮处置的影响时应进行评估。这些互补的体外和体内转化结果阐明了影响患者中美沙酮处置的药物遗传学变异性。

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