In Silico Prediction of Binding Affinities of Hybrid Molecules of Benzothiazole cross-linked with Hydroxamic acid by certain linkers

Yazen Alqaysi, Shakir M. Alwan, Ashour H. Dawood
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Abstract

New hybrid molecules of Benzothiazole cross-linked with hydroxamic acid through an amino acid or aminoalkanoic acid are suggested. All the synthesized hybrid molecules (2A-E) were subjected to molecular docking to evaluate their binding affinities with histone deacetylase enzyme (HDAC8, PDB ID: 1T69) and recorded lower ΔG (-8.117, -6.322, -8.16, -7.939, - 9.46, respectively) than Vorinostat (suberoylanilide hydroxamic acid, SAHA), as the reference ligand, which recorded a much less value of -5.375, using the Maestro software (Schrödinger, version 2022-1).  Moreover, compound 2E, which is Benzothiazole-p-amino benzoic acid-hydroxamate has recorded the lowest binding score (-9.460). This may indicate that this compound is the most active hybrid molecule. There were no violations from Lipinski’s rule and all the synthesized hybrid molecules comply with all parameters.  SwissADME server was employed for the in silico molecular docking for prediction of the physicochemical and ADME properties of the investigated compounds.  All hybrid molecules showed low possible passive oral absorption and no penetration into BBB. The hybrid molecules 2B and 2D may be considered as P-gp substrates. SAHA does not inhibit any of the CYP enzymes used in this study, while, the hybrid molecules 2B, 2D and 2E have shown possible inhibitory activities.
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苯并噻唑与羟肟酸通过某些连接剂交联的杂化分子的结合亲和力的硅学预测
提出了苯并噻唑通过氨基酸或氨基烷酸与羟肟酸交联的新杂化分子。对所有合成的杂化分子(2A-E)进行了分子对接,以评估它们与组蛋白去乙酰化酶(HDAC8,PDB ID:1T69)的结合亲和力。用 Maestro 软件(薛定谔,2022-1 版)计算,ΔG(分别为-8.117、-6.322、-8.16、-7.939、-9.46)比作为参考配体的 Vorinostat(亚伯酰苯胺羟肟酸,SAHA)低得多,后者的记录值为-5.375。 此外,苯并噻唑-对氨基苯甲酸-羟肟酸化合物 2E 的结合得分最低(-9.460)。这可能表明该化合物是最活跃的杂化分子。所有合成的杂化分子都符合所有参数的要求。 为了预测所研究化合物的理化和 ADME 特性,我们使用 SwissADME 服务器进行了硅分子对接。 所有杂化分子的被动口服吸收率都很低,而且没有渗透到 BBB。杂交分子 2B 和 2D 可被视为 P-gp 底物。SAHA 不抑制本研究中使用的任何一种 CYP 酶,而杂化分子 2B、2D 和 2E 则显示出可能的抑制活性。
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