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首页> 美国卫生研究院文献>Drug Metabolism and Disposition >Methadone N-Demethylation by the Common CYP2B6 Allelic Variant CYP2B6.6
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Methadone N-Demethylation by the Common CYP2B6 Allelic Variant CYP2B6.6

机译:美沙酮通过常见CYP2B6等位基因变体CYP2B6.6的N-去甲基化

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The long-acting opioid methadone displays considerable unexplained interindividual pharmacokinetic variability. Methadone metabolism clinically occurs primarily by N-demethylation to 2-ethyl-1,5-dimethyl-3,3-diphenylpyrrolidine (EDDP), catalyzed predominantly by CYP2B6. Retrospective studies suggest that the common allele variant CYP2B6*6 may influence methadone plasma concentrations. The catalytic activity of CYP2B6.6, encoded by CYP2B6*6, is highly substrate-dependent. This investigation compared methadone N-demethylation by CYP2B6.6 with that by wild-type CYP2B6.1. Methadone enantiomer and racemate N-demethylation by recombinant-expressed CYP2B6.6 and CYP2B6.1 was determined. At substrate concentrations (0.25–2 µM) approximating plasma concentrations occurring clinically, rates of methadone enantiomer N-demethylation by CYP2B6.6, incubated individually or as the racemate, were one-third to one-fourth those by CYP2B6.1. For methadone individual enantiomers and metabolism by CYP2B6.6 compared with CYP2B6.1, Vmax was diminished, Ks was greater and the in vitro intrinsic clearance was diminished 5- to 6-fold. The intrinsic clearance for R- and S-EDDP formation from racemic methadone was diminished approximately 6-fold and 3-fold for R- and S-methadone, respectively. Both CYP2B6.6 and CYP2B6.1 showed similar stereoselectivity (S>R-methadone). Human liver microsomes with diminished CYP2B6 content due to a CYP2B6*6 allele had lower rates of methadone N-demethylation. Results show that methadone N-demethylation catalyzed by CYP2B6.6, the CYP2B6 variant encoded by the CYP2B6*6 polymorphism, is catalytically deficient compared with wild-type CYP2B6.1. Diminished methadone N-demethylation by CYP2B6.6 may provide a mechanistic explanation for clinical observations of altered methadone disposition in individuals carrying the CYP2B6*6 polymorphism.
机译:长效阿片类药物美沙酮显示出相当大的无法解释的个体间药代动力学差异。美沙酮的代谢在临床上主要通过N-去甲基化为2-乙基-1,5-二甲基-3,3-二苯基吡咯烷(EDDP),主要由CYP2B6催化。回顾性研究表明,常见的等位基因变异CYP2B6 * 6可能影响美沙酮的血浆浓度。 CYP2B6 * 6编码的CYP2B6.6的催化活性高度依赖于底物。这项研究比较了CYP2B6.6和野生型CYP2B6.1的美沙酮N-去甲基化程度。测定了美沙酮对映体和外消旋体N-去甲基经重组表达的CYP2B6.6和CYP2B6.1的表达。在底物浓度(0.25-2 µM)接近临床上的血浆浓度时,单独或作为外消旋物通过CYP2B6.6进行美沙酮对映体N-去甲基化的速率为CYP2B6.1的三分之一至四分之一。对于美沙酮个体对映异构体和通过CYP2B6.6进行的代谢(与CYP2B6.1相比),Vmax降低,Ks更大,体外固有清除率降低5至6倍。外消旋美沙酮形成R-和S-EDDP的内在清除率分别降低了R-和S-美沙酮的6倍和3倍。 CYP2B6.6和CYP2B6.1均显示相似的立体选择性(S> R-美沙酮)。由于CYP2B6 * 6等位基因而导致CYP2B6含量降低的人肝微粒体的美沙酮N-去甲基化率较低。结果显示,与野生型CYP2B6.1相比,由CYP2B6 * 6多态性编码的CYP2B6变体CYP2B6.6催化的美沙酮N-去甲基化。 CYP2B6.6减少的美沙酮N-去甲基化作用可能为临床上观察到的具有CYP2B6 * 6多态性的美沙酮处置方式改变的机理提供了机械解释。

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