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首页> 美国卫生研究院文献>other >Homology models of mouse and rat estrogen receptor-α ligand-binding domain created by in silico mutagenesis of a human template: molecular docking with 17ß-estradiol diethylstilbestrol and paraben analogs
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Homology models of mouse and rat estrogen receptor-α ligand-binding domain created by in silico mutagenesis of a human template: molecular docking with 17ß-estradiol diethylstilbestrol and paraben analogs

机译:通过人类模板的计算机诱变创建的小鼠和大鼠雌激素受体-α配体结合域的同源性模型:与17ß-雌二醇己烯雌酚和对羟基苯甲酸酯类似物的分子对接

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Crystal structures exist for human, but not rodent, estrogen receptor-α ligand-binding domain (ERα-LBD). Consequently, rodent studies involving binding of compounds to ERα-LBD are limited in their molecular-level interpretation and extrapolation to humans. Because the sequences of rodent and human ERα-LBDs are > 95% identical, we expected their 3D structures and ligand binding to be highly similar. To test this hypothesis, we used the human ERα-LBD structure (PDB 3UUD) as a template to produce rat and mouse homology models. Employing the rodent models and human structure, we generated docking poses of 23 Group A ligands (17ß-estradiol, diethylstilbestrol, and 21 paraben analogs) in AutoDock Vina for interspecies comparisons. Ligand RMSDs (Å) (median, 95% CI) were 0.49 (0.21–1.82) (human-mouse) and 1.19 (0.22–1.82) (human-rat), well below the 2.0–2.5 Å range for equivalent docking poses. Numbers of interspecies ligand-receptor residue contacts were highly similar, with Sorensen Sc (%) = 96.8 (90.0–100) (human-mouse) and 97.7 (89.5–100) (human-rat). Likewise, numbers of interspecies ligand-receptor residue contacts were highly correlated: Pearson r = 0.913 (human-mouse) and 0.925 (human-rat). Numbers of interspecies ligand-receptor atom contacts were even more tightly correlated: r = 0.979 (human-mouse) and 0.986 (human-rat). Pyramid plots of numbers of ligand-receptor atom contacts by residue exhibited high interspecies symmetry and had Spearman rs = 0.977 (human-mouse) and 0.966 (human-rat). Group B ligands included 15 ring-substituted parabens recently shown experimentally to exhibit decreased binding to human ERα and to exert increased antimicrobial activity. Ligand efficiencies calculated from docking ligands into human ERα-LBD were well correlated with those derived from published experimental data (Pearson partial rp = 0.894 and 0.918; Groups A and B, respectively). Overall, the results indicate that our constructed rodent ERα-LBDs interact with ligands in like manner to the human receptor, thus providing a high level of confidence in extrapolations of rodent to human ligand-receptor interactions.
机译:存在人类而不是啮齿动物雌激素受体-α配体结合域(ERα-LBD)的晶体结构。因此,涉及化合物与ERα-LBD结合的啮齿动物研究在分子水平的解释和外推到人类方面受到限制。因为啮齿动物和人ERα-LBD的序列> 95%相同,所以我们期望它们的3D结构和配体结合高度相似。为了验证这一假设,我们使用人类ERα-LBD结构(PDB 3UUD)作为模板来生成大鼠和小鼠同源模型。利用啮齿动物模型和人体结构,我们在AutoDock Vina中生成了23种A组配体(17β-雌二醇,己烯雌酚和21种对羟基苯甲酸酯类似物)的对接位姿,以进行种间比较。配体RMSD(Å)(中值,95%CI)分别为0.49(0.21–1.82)(人鼠)和1.19(0.22–1.82)(人鼠),远低于等效停靠姿势的2.0–2.5Å范围。种间配体-受体残基接触的数量非常相似,Sorensen Sc(%)= 96.8(90.0–100)(人鼠)和97.7(89.5–100)(人鼠)。同样,种间配体-受体残基接触的数量也高度相关:Pearson r = 0.913(人鼠)和0.925(人鼠)。种间配体-受体原子接触的数量甚至更紧密相关:r = 0.979(人鼠)和0.986(人鼠)。残基的配体-受体原子接触数的金字塔图显示出较高的种间对称性,并且Spearman rs = 0.977(人鼠)和0.966(人鼠)。 B组配体包括15个最近被实验证明对人ERα的结合减少并具有增强的抗菌活性的环取代的对羟基苯甲酸酯。从配体对接到人ERα-LBD中计算出的配体效率与从已发表的实验数据得出的相关性很好(Pearson部分rp = 0.894和0.918; A组和B组)。总体而言,结果表明我们构建的啮齿动物ERα-LBD与人类受体的配体相互作用的方式类似,从而为啮齿动物对人类配体-受体相互作用的推断提供了很高的可信度。

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