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药物与 CYP46A1 结合的结构基础,CYP46A1 是一种控制大脑胆固醇周转的酶。

Structural basis of drug binding to CYP46A1, an enzyme that controls cholesterol turnover in the brain.

机构信息

Department of Ophthalmology and Visual Sciences, Case Western Reserve University, Cleveland, Ohio 44106, USA.

出版信息

J Biol Chem. 2010 Oct 8;285(41):31783-95. doi: 10.1074/jbc.M110.143313. Epub 2010 Jul 28.

DOI:10.1074/jbc.M110.143313
PMID:20667828
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2951250/
Abstract

Cytochrome P450 46A1 (CYP46A1) initiates the major pathway of cholesterol elimination from the brain and thereby controls cholesterol turnover in this organ. We determined x-ray crystal structures of CYP46A1 in complex with four structurally distinct pharmaceuticals; antidepressant tranylcypromine (2.15 Å), anticonvulsant thioperamide (1.65 Å), antifungal voriconazole (2.35 Å), and antifungal clotrimazole (2.50 Å). All four drugs are nitrogen-containing compounds that have nanomolar affinity for CYP46A1 in vitro yet differ in size, shape, hydrophobicity, and type of the nitrogen ligand. Structures of the co-complexes demonstrate that each drug binds in a single orientation to the active site with tranylcypromine, thioperamide, and voriconazole coordinating the heme iron via their nitrogen atoms and clotrimazole being at a 4 Å distance from the heme iron. We show here that clotrimazole is also a substrate for CYP46A1. High affinity for CYP46A1 is determined by a set of specific interactions, some of which were further investigated by solution studies using structural analogs of the drugs and the T306A CYP46A1 mutant. Collectively, our results reveal how diverse inhibitors can be accommodated in the CYP46A1 active site and provide an explanation for the observed differences in the drug-induced spectral response. Co-complexes with tranylcypromine, thioperamide, and voriconazole represent the first structural characterization of the drug binding to a P450 enzyme.

摘要

细胞色素 P450 46A1(CYP46A1)启动了胆固醇从大脑中消除的主要途径,从而控制了该器官中胆固醇的周转率。我们确定了 CYP46A1 与四种结构不同的药物复合物的 X 射线晶体结构;抗抑郁药反式环丙胺(2.15 Å)、抗惊厥药噻哌酰胺(1.65 Å)、抗真菌药伏立康唑(2.35 Å)和抗真菌药克霉唑(2.50 Å)。这四种药物都是含氮化合物,在体外对 CYP46A1 的亲和力均为纳摩尔级,但在大小、形状、疏水性和氮配体类型上存在差异。复合物的结构表明,每种药物都以单一方向与活性位点结合,反式环丙胺、噻哌酰胺和伏立康唑通过其氮原子与血红素铁配位,克霉唑与血红素铁的距离为 4 Å。我们在这里表明,克霉唑也是 CYP46A1 的底物。对 CYP46A1 的高亲和力由一组特定的相互作用决定,其中一些相互作用通过使用药物的结构类似物和 T306A CYP46A1 突变体进行溶液研究进一步进行了研究。总的来说,我们的结果揭示了不同的抑制剂如何适应 CYP46A1 的活性位点,并解释了观察到的药物诱导光谱响应差异的原因。与反式环丙胺、噻哌酰胺和伏立康唑的共复合物代表了药物与 P450 酶结合的首次结构表征。

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