介导奥美拉唑二次代谢的人肝细胞色素P450同工酶的鉴定。
Identification of human liver cytochrome P450 isoforms mediating secondary omeprazole metabolism.
作者信息
Andersson T, Miners J O, Veronese M E, Birkett D J
机构信息
Department of Clinical Pharmacology, Flinders Medical Centre, Bedford Park, Australia.
出版信息
Br J Clin Pharmacol. 1994 Jun;37(6):597-604. doi: 10.1111/j.1365-2125.1994.tb04310.x.
Abstract
- The in vitro metabolism of omeprazole was studied in human liver microsomes in order to define the secondary metabolic pathways and identify the cytochrome P450 (CYP) isoforms responsible for the formation of the secondary metabolites of omeprazole. 2. The major secondary omeprazole metabolite was the hydroxysulphone, which was formed during incubation with both hydroxyomeprazole and omeprazole sulphone. A second metabolite, tentatively identified as pyridine-N-oxide omeprazole sulphone, was also formed during incubation with omeprazole sulphone. The formation kinetics of these two metabolites from omeprazole sulphone were biphasic suggesting the involvement of multiple CYP isoforms in each case. In contrast, the formation kinetics of hydroxysulphone from hydroxyomeprazole were linear. 3. Inhibition studies, performed with omeprazole sulphone as substrate at concentrations at which the high affinity activities predominated, with a series of isoform selective inhibitors as well as with an anti-CYP2C3 antibody suggested a dominant role of S-mephenytoin hydroxylase in the formation of hydroxysulphone from omeprazole sulphone. By contrast, CYP3A activities were predominant in the formation of hydroxysulphone from hydroxyomeprazole as well as in the formation of pyridine-N-oxide omeprazole sulphone from omeprazole sulphone.
摘要
- 为了确定奥美拉唑的二级代谢途径并鉴定负责形成奥美拉唑二级代谢产物的细胞色素P450(CYP)同工酶,在人肝微粒体中研究了奥美拉唑的体外代谢。2. 奥美拉唑的主要二级代谢产物是羟基砜,它在与羟基奥美拉唑和奥美拉唑砜孵育时形成。在与奥美拉唑砜孵育期间还形成了第二种代谢产物,初步鉴定为吡啶-N-氧化物奥美拉唑砜。这两种代谢产物从奥美拉唑砜的形成动力学是双相的,表明每种情况下都涉及多种CYP同工酶。相比之下,羟基奥美拉唑形成羟基砜的动力学是线性的。3. 以奥美拉唑砜为底物,在高亲和力活性占主导的浓度下,与一系列同工酶选择性抑制剂以及抗CYP2C3抗体进行的抑制研究表明,S-美芬妥因羟化酶在从奥美拉唑砜形成羟基砜的过程中起主要作用。相比之下,CYP3A活性在从羟基奥美拉唑形成羟基砜以及从奥美拉唑砜形成吡啶-N-氧化物奥美拉唑砜的过程中占主导地位。
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