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在纳米盘里用多个细胞色素 P450 还原酶分子对单体 CYP3A4 进行功能重建。

Functional reconstitution of monomeric CYP3A4 with multiple cytochrome P450 reductase molecules in Nanodiscs.

机构信息

Department of Biochemistry, School of Molecular and Cellular Biology, The University of Illinois, 505 South Goodwin Avenue, Urbana, IL 61801, USA.

出版信息

Biochem Biophys Res Commun. 2010 Jul 23;398(2):194-8. doi: 10.1016/j.bbrc.2010.06.058. Epub 2010 Jun 17.

DOI:10.1016/j.bbrc.2010.06.058
PMID:20599740
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4103192/
Abstract

Traditional reconstitution of membrane cytochromes P450 monooxygenase system requires efficient solubilization of both P450 heme enzymes and redox partner NADPH dependent reductase, CPR, either in mixed micellar solution or by incorporation in liposomes. Here we describe a simple alternative approach to assembly of soluble complexes of monomeric human hepatic cytochrome P450 CYP3A4 with CPR by co-incorporation into nanoscale POPC bilayer Nanodiscs. Stable and fully functional complexes with different CPR:CYP3A4 stoichiometric ratios are formed within several minutes after addition of the full-length CPR to the solution of CYP3A4 preassembled into POPC Nanodiscs at 37 degrees C. We find that the steady state rates of NADPH oxidation and testosterone hydroxylation strongly depend on CPR:CYP3A4 ratio and reach maximum at tenfold molar access of CPR. The binding of CPR to CYP3A4 in Nanodiscs is tight, such that complexes with different stoichiometry can be separated by size-exclusion chromatography. Reconstitution systems based on the co-incorporation of CPR into preformed Nanodiscs with different human cytochromes P450 are suitable for high-throughput screening of substrates and inhibitors and for drug-drug interaction studies.

摘要

传统的膜细胞色素 P450 单加氧酶系统的重建需要有效地溶解 P450 血红素酶和氧化还原伴侣 NADPH 依赖性还原酶,无论是在混合胶束溶液中还是通过整合在脂质体中。在这里,我们描述了一种简单的替代方法,通过共包埋到纳米级 POPC 双层纳米盘中,将单体人肝细胞色素 P450 CYP3A4 与 CPR 组装成可溶性复合物。在 37°C 下,将全长 CPR 添加到预先组装到 POPC 纳米盘中的 CYP3A4 溶液中几分钟后,即可形成稳定且具有完全功能的 CPR:CYP3A4 不同比例的复合物。我们发现,NADPH 氧化和睾酮羟化的稳态速率强烈依赖于 CPR:CYP3A4 比值,并在 CPR 摩尔数增加十倍时达到最大值。CPR 与 Nanodiscs 中 CYP3A4 的结合非常紧密,因此可以通过分子筛层析分离具有不同化学计量比的复合物。基于将 CPR 共包埋到具有不同人细胞色素 P450 的预形成的 Nanodiscs 中的再组装系统适用于高通量筛选底物和抑制剂以及药物相互作用研究。

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