Pharmacogenetic roles of CYP2C19 and CYP2B6 in the metabolism of R- and S-mephobarbital in humans.

Pharmacogenetics Pub Date : 2004-08-01 DOI:10.1097/01.fpc.0000114764.78957.22

Kaoru Kobayashi, Jun Morita, Kan Chiba, Atsuko Wanibuchi, Miyuki Kimura, Shin Irie, Akinori Urae, Takashi Ishizaki

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引用次数: 17

Abstract

Objectives and methods: We assessed the relationship between the metabolism of R- and S-mephobarbital (MPB) and genetic polymorphisms of cytochrome P450 (CYP) 2C19 and CYP2B6. Nine homozygous extensive metabolizers (homo-EMs, 2C19*1/2C19*1) of CYP2C19, ten heterozygous EMs (hetero-EMs, 2C19*1/2C19*2, 2C19*1/2C19*3) and eleven poor metabolizers (PMs, 2C19*2/2C19*2, 2C19*3/2C19*3, 2C19*2/2C19*3) recruited from a Japanese population, received an oral 200 mg-dose of racemic MPB. Blood and urine samples were collected, and R-MPB, S-MPB and the metabolites, phenobarbital (PB) and 4'-hydroxy-MPB, were measured. Each subject was also genotyped for CYP2B6 gene.

Results: The mean area under the plasma concentration-time curve (AUC) of R-MPB was 92-fold greater in PMs than in homo-EMs. R/S ratios for AUC of MPB were much higher in PMs than in EMs (homo- and hetero-). The cumulative urinary excretion of 4'-hydroxy-MPB up to 24 h postdose was 21-fold less in PMs than in homo-EMs. The metabolic ratio of AUCPB/(AUCS-MPB + AUCR-MPB) was higher in PMs than in EMs (homo- and hetero-). In addition, this metabolic ratio was lower in the carriers of CYP2B6*6 compared with that in its non-carriers.

Conclusions: Our results indicate that the 4'-hydroxylation of R-MPB is mediated via CYP2C19 and that the rapid 4'-hydroxylation of R-MPB results in a marked difference in the pharmacokinetic profiles between R-MPB and S-MPB in the different CYP2C19 genotypic individuals. In addition, a minor fraction of the interindividual variability in PB formation from MPB may be explainable by the CYP2B6*6 allele.

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CYP2C19和CYP2B6在人R-和s -甲巴比妥代谢中的药理学作用。

目的与方法:探讨R-和s -甲比妥(MPB)代谢与细胞色素P450 (CYP) 2C19和CYP2B6基因多态性的关系。从日本人群中招募9名CYP2C19纯合子广泛代谢者(homoo -EMs, 2C19*1/2C19*1)， 10名杂合子EMs (hetero-EMs, 2C19*1/2C19*2, 2C19*1/2C19*3)和11名代谢不良者(pm, 2C19*2/2C19*2, 2C19*3/2C19*3, 2C19*2/2C19*3)，口服200 mg外消旋MPB。采集血样和尿样，测定R-MPB、S-MPB及其代谢物苯巴比妥(PB)和4′-羟基mpb。对每个受试者进行CYP2B6基因分型。结果:R-MPB在pm组的血药浓度-时间曲线下的平均面积(AUC)是同型ems组的92倍。MPB AUC的R/S比在pm中比在EMs(同性和异性)中高得多。4'-羟基- mpb在给药后24小时的累积尿排泄量在pm组比同型ems组少21倍。AUCPB/(AUCS-MPB + AUCR-MPB)的代谢比率在pm中高于EMs(同型和异型)。此外，CYP2B6*6基因携带者的代谢率低于非CYP2B6基因携带者。结论:我们的研究结果表明，R-MPB的4′-羟基化是通过CYP2C19介导的，并且R-MPB的快速4′-羟基化导致R-MPB和S-MPB在不同CYP2C19基因型个体中的药代动力学谱存在显著差异。此外，MPB中PB形成的个体间变异性的一小部分可以用CYP2B6*6等位基因来解释。

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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Pharmacogenetics

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