In-silico studies and docking of n-substituted isoindoline-1, 3-dioine analogues as anti-proliferative agents

Shailendra Saraf
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Abstract

Recently,isoindoline-1,3-dione compounds based folpet, phosmet, captonand thalidomide were developed because they have a comparable degree of anti-proliferative efficacy owing to their diverse mechanisms such as HDAC inhibitors, tryptase inhibitors, inhibits the mode of tnf-α, and angiogenesis inhibitors. It was investigated how the phthalimide pharmacophore interacted with molecules such tnf-α, HDAC, VEGF, EGF, and Tyrosine Kinase Angiogenesis. In order to assess the inhibitory activity against enzyme assay, a series of phthalimidepharmacophores with various substituent’s (Schiff's base) at the N-phenyl ring were submitted to protein-ligand docking investigations using the lib-dock method in the current work. All of the compounds' chemical structures were designed using Cambridge software, ChemBioOffice Ultra 12.0, and their molecular characteristics were determined using the online molecular modelling tool Molinspiration. Utilizing the Discovery Studio Client version 4.1, ADMETlab 2.0, and Lazar 1.4.2 softwares, ADME, Toxicity, and Molecular Docking investigations using the lib-dock method were carried out to evaluate the binding mode and interactions of synthetic hits at the binding site of receptors. Docking studies demonstrated that these sorts of ligands interacted mostly with TNF-α, HDAC, VEGF, EGF, Tyrosine kinase, and angiogenesis reports, among others, by forming hydrogen bonds and interacting hydrophobically with the domain. Our docking results indicate that compounds A1, A10, A11, A22, A26, and A28 demonstrated the greatest binding affinity with the corresponding proteins based on the predicted binding energy. These computer simulations have shown that phthalimide compounds with N-phenyl rings replaced can effectively suppress enzymatic assay.
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作为抗增殖剂的正代异吲哚啉-1, 3-二环类似物的分子内研究和对接
近来,以氟派特、酞酰亚胺、卡普顿和沙利度胺为基础的异吲哚啉-1,3-二酮化合物被开发出来,因为它们具有不同的机制,如 HDAC 抑制剂、胰蛋白酶抑制剂、tnf-α 抑制剂和血管生成抑制剂,因而具有相当程度的抗增殖功效。研究人员对邻苯二甲酰亚胺的药理结构与 tnf-α、HDAC、血管内皮生长因子、表皮生长因子和酪氨酸激酶血管生成等分子之间的相互作用进行了研究。为了评估酞酰亚胺类药物对酶的抑制活性,本研究采用 lib-dock 方法对一系列在 N-苯基环上具有不同取代基(希夫碱)的酞酰亚胺类药物进行了蛋白质配体对接研究。所有化合物的化学结构都是用剑桥软件 ChemBioOffice Ultra 12.0 设计的,其分子特征则是用在线分子建模工具 Molinspiration 确定的。利用 Discovery Studio Client 4.1 版、ADMETlab 2.0 和 Lazar 1.4.2 软件,采用 lib-dock 方法进行了 ADME、毒性和分子对接研究,以评估合成药物在受体结合部位的结合模式和相互作用。Docking 研究表明,这些配体主要与 TNF-α、HDAC、VEGF、EGF、酪氨酸激酶和血管生成报告等相互作用,形成氢键并与结构域发生疏水作用。我们的对接结果表明,根据预测的结合能,化合物 A1、A10、A11、A22、A26 和 A28 与相应蛋白质的结合亲和力最大。这些计算机模拟结果表明,替换了 N-苯基环的邻苯二甲酰亚胺化合物可以有效抑制酶测定。
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