人类cyp7酶的新配体-可能的胆固醇血水平调节剂:计算机模拟研究

Yaraslau U Dzichenka, M. Shapira, S. Usanov, Marina P. Savić, Ljubica M Grbović, Jovana J. Ajduković, S. Jovanović-Šanta
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引用次数: 0

摘要

我们的体外研究表明,一些甾体衍生物通过酶抑制、受体结合或对生殖组织癌细胞的抗增殖作用显示出先前的生物医学潜力,它们能够结合人类CYP7酶——参与胆固醇、25-、27-羟基化和许多甾体激素的关键酶。对修饰类固醇与CYP7酶结合亲和力的硅筛选表明,新配体的相互作用能与酶的“必需”底物-胆甾酮(CYP7A1)和脱氢表雄酮(CYP7B1)的计算结果相当。然而,结合能与配体的亲和力之间没有相关性。新型配体与保守氨基酸相互作用,参与CYP7酶的天然底物稳定。确定了控制配体结合的几个结构特征。其中CYP7A1配体的a环呈平面结构,侧链中缺少许多极性片段,C3位置存在极性基团。对接结果分析表明,CYP7B1比CYP7A1具有更高的选择性是通过α-螺旋I和B '形成的空腔结构连接起来的。所得数据将用于解释人甾醇羟化酶的配体特异性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
NOVEL LIGANDS OF HUMAN CYP7 ENZYMES – POSSIBLE MODULATORS OF CHOLESTEROL BLOOD LEVEL: COMPUTER SIMULATION STUDIES
Our in vitro studies showed that a couple of perspective steroidal derivatives showed previously biomedical potential via enzyme inhibition, receptor binding or antiproliferative effect against the cancer cells of reproductive tissues are able to bind to human CYP7 enzymes – key enzymes taking part in hydroxylation of cholesterol, 25-, 27-hydroxycholesterol and a number of steroidal hormones. In silico screening of binding affinity of the modified steroids toward CYP7 enzymes showed that interaction energy for the new ligands is comparable with consequent values, calculated for the ‘essential’ substrates of the enzymes – cholestenone (CYP7A1) and DHEA (CYP7B1). However, no correlation between binding energy and the affinity of the ligand was found. Novel ligands interact with conserved amino acids taking part in stabilization of natural substrates of CYP7 enzymes. A couple of structural features, governing ligand binding, were identified. Among which are planar structure of A-ring for CYP7A1 ligands, absence of many polar fragments in side-chain and presence of polar group at C3 position. Analysis of the docking results showed that CYP7B1 higher selectivity in comparison with CYP7A1 is connected by the structure of the cavity formed by α-helices I and B`. The data obtained will be used for the explanation of ligand specificity of human sterol- hydroxylases.
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