Structure-based virtual screening for new lead compounds targeted Plasmodium α-tubulin

Faktori eksperimental'noi evolucii organizmiv Pub Date : 2021-08-31 DOI:10.7124/feeo.v28.1389

O. V. Rayevsky, O. M. Demchyk, P. Karpov, S. Ozheredov, S. Spivak, A. Yemets, Y. Blume

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Abstract

Aim. Search for new dinitroaniline and phosphorothioamide compounds, capable of selective binding with Plasmodium α-tubulin, affecting its mitotic apparatus. Methods. Structural biology methods of computational prediction of protein-ligand interaction: molecular docking, molecular dynamics and pharmacophore analysis. Selection of compounds based on pharmacophore characteristics and virtual screening results. Results. The protocol and required structural conditions for target (α-tubulin of P. falciparum) preparation and correct modeling of the ligand-protein interaction (docking and virtual screening) were developed. The generalized pharmacophore model of ligand-protein interaction and key functional groups of ligands responsible for specific binding were identified. Conclusions. Based on results of virtual screening, 22 commercial compounds were selected. Identified compounds proposed as potential inhibitors of Plasmodium mitotic machinery and the base of new antimalarial drugs. Keywords: malaria, Plasmodium, intermolecular interaction, dinitroaniline derived, phosphorothioamidate derived.

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靶向α-微管蛋白疟原虫新先导化合物的结构虚拟筛选

的目标。寻找新的二硝基苯胺和磷硫酰胺化合物，能够选择性结合疟原虫α-微管蛋白，影响其有丝分裂装置。方法。蛋白质-配体相互作用计算预测的结构生物学方法:分子对接、分子动力学和药效团分析。基于药效团特征和虚拟筛选结果的化合物选择。结果。制定了靶蛋白(恶性疟原虫α-微管蛋白)制备和配体-蛋白相互作用(对接和虚拟筛选)正确建模的方案和所需结构条件。确定了配体-蛋白相互作用的广义药效团模型和负责特异性结合的配体关键官能团。结论。基于虚拟筛选的结果，共筛选出22种商业化化合物。已确定的可能抑制疟原虫有丝分裂机制的化合物和抗疟新药的基础。关键词:疟疾，疟原虫，分子间相互作用，二硝基苯胺衍生物，硫代氨基磷衍生物

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Faktori eksperimental'noi evolucii organizmiv

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