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通过计算机建模和定点突变阐明 ERα 激动剂和拮抗剂与人α-胎蛋白的结合位点和亲和力。

Elucidating Binding Sites and Affinities of ERα Agonists and Antagonists to Human Alpha-Fetoprotein by In Silico Modeling and Point Mutagenesis.

机构信息

Laboratory of Bioinformatics, I.M. Sechenov First Moscow State Medical University (Sechenov University), 119991 Moscow, Russia.

Department of Bioengineering, M.V. Lomonosov Moscow State University, 119991 Moscow, Russia.

出版信息

Int J Mol Sci. 2020 Jan 30;21(3):893. doi: 10.3390/ijms21030893.

DOI:10.3390/ijms21030893
PMID:32019136
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7036865/
Abstract

Alpha-fetoprotein (AFP) is a major embryo- and tumor-associated protein capable of binding and transporting a variety of hydrophobic ligands, including estrogens. AFP has been shown to inhibit estrogen receptor (ER)-positive tumor growth, which can be attributed to its estrogen-binding ability. Despite AFP having long been investigated, its three-dimensional (3D) structure has not been experimentally resolved and molecular mechanisms underlying AFP-ligand interaction remains obscure. In our study, we constructed a homology-based 3D model of human AFP (HAFP) with the purpose of molecular docking of ERα ligands, three agonists (17β-estradiol, estrone and diethylstilbestrol), and three antagonists (tamoxifen, afimoxifene and endoxifen) into the obtained structure. Based on the ligand-docked scoring functions, we identified three putative estrogen- and antiestrogen-binding sites with different ligand binding affinities. Two high-affinity binding sites were located (i) in a tunnel formed within HAFP subdomains IB and IIA and (ii) on the opposite side of the molecule in a groove originating from a cavity formed between domains I and III, while (iii) the third low-affinity binding site was found at the bottom of the cavity. Here, 100 ns molecular dynamics (MD) simulation allowed us to study their geometries and showed that HAFP-estrogen interactions were caused by van der Waals forces, while both hydrophobic and electrostatic interactions were almost equally involved in HAFP-antiestrogen binding. Molecular mechanics/Generalized Born surface area (MM/GBSA) rescoring method exploited for estimation of binding free energies (ΔG) showed that antiestrogens have higher affinities to HAFP as compared to estrogens. We performed in silico point substitutions of amino acid residues to confirm their roles in HAFP-ligand interactions and showed that Thr132, Leu138, His170, Phe172, Ser217, Gln221, His266, His316, Lys453, and Asp478 residues, along with two disulfide bonds (Cys224-Cys270 and Cys269-Cys277), have key roles in both HAFP-estrogen and HAFP-antiestrogen binding. Data obtained in our study contribute to understanding mechanisms underlying protein-ligand interactions and anticancer therapy strategies based on ERα-binding ligands.

摘要

甲胎蛋白(AFP)是一种主要的胚胎和肿瘤相关蛋白,能够结合和转运多种疏水性配体,包括雌激素。已表明 AFP 能够抑制雌激素受体(ER)阳性肿瘤的生长,这归因于其与雌激素结合的能力。尽管 AFP 已被长期研究,但尚未通过实验解析其三维(3D)结构,AFP 与配体相互作用的分子机制仍不清楚。在我们的研究中,我们构建了人 AFP(HAFP)的同源 3D 模型,目的是将 ERα 配体的三个激动剂(17β-雌二醇、雌酮和己烯雌酚)和三个拮抗剂(他莫昔芬、阿非莫芬和依西美坦)进行分子对接。根据配体对接评分函数,我们确定了三个具有不同配体结合亲和力的潜在雌激素和抗雌激素结合位点。两个高亲和力结合位点位于(i)HAFP 亚结构域 IB 和 IIA 之间形成的隧道内,和(ii)分子的相对侧,位于由结构域 I 和 III 之间形成的腔的凹槽内,而(iii)第三个低亲和力结合位点位于腔的底部。在这里,100 ns 分子动力学(MD)模拟使我们能够研究它们的几何形状,并表明 HAFP-雌激素相互作用是由范德华力引起的,而疏水性和静电相互作用几乎同等参与 HAFP-抗雌激素结合。用于估计结合自由能(ΔG)的分子力学/广义 Born 表面面积(MM/GBSA)重评分方法表明,与雌激素相比,抗雌激素对 HAFP 具有更高的亲和力。我们进行了氨基酸残基的计算机点取代,以确认它们在 HAFP-配体相互作用中的作用,并表明 Thr132、Leu138、His170、Phe172、Ser217、Gln221、His266、His316、Lys453 和 Asp478 残基以及两个二硫键(Cys224-Cys270 和 Cys269-Cys277)在 HAFP-雌激素和 HAFP-抗雌激素结合中都具有关键作用。我们的研究结果有助于理解蛋白质-配体相互作用的机制,并为基于 ERα 结合配体的抗癌治疗策略提供信息。

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