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人肝微粒体将雷贝拉唑硫醚立体选择性代谢为雷贝拉唑。

Stereoselective metabolism of rabeprazole-thioether to rabeprazole by human liver microsomes.

作者信息

Miura Masatomo, Satoh Shigeru, Tada Hitoshi, Habuchi Tomonori, Suzuki Toshio

机构信息

Department of Pharmacy, Akita University Hospital, 1-1-1 Hondo, Akita, 010-8543, Japan.

出版信息

Eur J Clin Pharmacol. 2006 Feb;62(2):113-7. doi: 10.1007/s00228-005-0077-8. Epub 2005 Dec 31.

DOI:10.1007/s00228-005-0077-8

PMID:16389533

Abstract

OBJECTIVE

Rabeprazole is metabolized mainly non-enzymatically to rabeprazole-thioether. This in vitro study was designed to clarify the stereoselective oxidation mechanism and to identify the enzyme(s) involved in the metabolic breakdown of rabeprazole-thioether to rabeprazole.

METHODS

Rabeprazole-thioether was incubated with human liver microsomes and several recombinant cytochrome P450 (CYP) enzymes (CYPs 1A2, 2A6, 2B6, 2C9, 2C19, 2D6, 2E1, and 3A4). High-performance liquid chromatography was used for identification and quantification of each rabeprazole enantiomer.

RESULTS

The K(m ) and V(max ) values for the formation of (R)-rabeprazole from rabeprazole-thioether in human liver microsomes were 6.6 microM and 92 pmol/min/mg protein, respectively, whereas those for the formation of (S)-rabeprazole were 5.1 microM and 21 pmol/min/mg protein, respectively. CYP3A4 was found to be the major enzyme responsible for(R)- and (S)-rabeprazole formation from rabeprazole-thioether. The intrinsic clearance (V(max ) /K(m )) for the oxidation by CYP3A4 of (R)-rabeprazole was 3.5-fold higher than that for the (S)-enantiomer (81 nl/min/pmol of P450 vs. 23 nl/min/pmol of P450). On the other hand, CYP2C19 and CYP2D6 were the main enzymes catalyzing the formation of desmethylrabeprazole-thioether from rabeprazole-thioether. The mean K(m ) and V(max ) values of desmethylrabeprazole-thioether formation for CYP2C19 were 5.1 microM and 600 pmol/min/nmol of P450, respectively, whereas those for CYP2D6 were 15.1 microM and 736 pmol/min/nmol of P450, respectively.

DISCUSSION

Rabeprazole is reduced mainly non-enzymatically to rabeprazole-thioether, which is further stereoselectively re-oxidized by CYP3A4 mainly to (R)-rabeprazole. The difference in the enantioselective disposition of rabeprazole is determined by stereoselectivity in CYP3A4-mediated metabolic conversion from rabeprazole-thioether to rabeprazole.

摘要

目的

雷贝拉唑主要通过非酶代谢生成雷贝拉唑硫醚。本体外研究旨在阐明其立体选择性氧化机制，并确定参与雷贝拉唑硫醚代谢分解为雷贝拉唑的酶。

方法

将雷贝拉唑硫醚与人肝微粒体及几种重组细胞色素P450（CYP）酶（CYP 1A2、2A6、2B6、2C9、2C19、2D6、2E1和3A4）一起孵育。采用高效液相色谱法对每种雷贝拉唑对映体进行鉴定和定量。

结果

在人肝微粒体中，雷贝拉唑硫醚生成（R）-雷贝拉唑的K(m)和V(max)值分别为6.6 microM和92 pmol/min/mg蛋白，而生成（S）-雷贝拉唑的K(m)和V(max)值分别为5.1 microM和21 pmol/min/mg蛋白。发现CYP3A4是负责将雷贝拉唑硫醚转化为（R）-和（S）-雷贝拉唑的主要酶。CYP3A4氧化（R）-雷贝拉唑的内在清除率（V(max)/K(m)）比（S）-对映体高3.5倍（分别为81 nl/min/pmol P450和23 nl/min/pmol P450）。另一方面，CYP2C19和CYP2D6是催化雷贝拉唑硫醚生成去甲基雷贝拉唑硫醚的主要酶。CYP2C19生成去甲基雷贝拉唑硫醚的平均K(m)和V(max)值分别为5.1 microM和600 pmol/min/nmol P450，而CYP2D6的分别为15.1 microM和736 pmol/min/nmol P450。

讨论

雷贝拉唑主要通过非酶还原生成雷贝拉唑硫醚，后者再由CYP3A4进行立体选择性再氧化，主要生成（R）-雷贝拉唑。雷贝拉唑对映体处置的差异由CYP3A4介导的从雷贝拉唑硫醚到雷贝拉唑代谢转化中的立体选择性决定。

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人肝微粒体将雷贝拉唑硫醚立体选择性代谢为雷贝拉唑。

Stereoselective metabolism of rabeprazole-thioether to rabeprazole by human liver microsomes.

作者信息

机构信息

出版信息

OBJECTIVE

METHODS

RESULTS

DISCUSSION

目的

方法

结果

讨论

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