Shukla Rohit, Shukla Harish, Tripathi Timir
Molecular and Structural Biophysics Laboratory, Department of Biochemistry, North-Eastern Hill University, Umshing, Shillong, India.
J Cell Biochem. 2019 Feb;120(2):2469-2482. doi: 10.1002/jcb.27538. Epub 2018 Sep 11.
Persistent infection by Mycobacterium tuberculosis requires the glyoxylate shunt. This is a bypass to the tricarboxylic acid cycle in which isocitrate lyase (ICL) and malate synthase (MS) catalyze the net incorporation of carbon during mycobacterial growth on acetate or fatty acids as the primary carbon source. To identify a potential antitubercular compound, we performed a structure-based screening of natural compounds from the ZINC database (n = 1 67 740) against the M tuberculosis MS (MtbMS) structure. The ligands were screened against MtbMS, and 354 ligands were found to have better docking score. These compounds were assessed for Lipinski and absorption, distribution, metabolism, excretion, and toxicity prediction where 15 compounds were found to fit well for redocking studies. After refinement by molecular docking and drug-likeness analysis, four potential inhibitors (ZINC1483899, ZINC1754310, ZINC2269664, and ZINC15729522) were identified. These four ligands with phenyl-diketo acid were further subjected to molecular dynamics simulation to compare the dynamics and stability of the protein structure after ligand binding. The binding energy analysis was calculated to determine the intermolecular interactions. Our results suggested that the four compounds had a binding free energy of -201.96, -242.02, -187.03, and -169.02 kJ·mol , for compounds with IDs ZINC1483899, ZINC1754310, ZINC2269664, and ZINC15729522, respectively. We concluded that two compounds (ZINC1483899 and ZINC1754310) displayed considerable structural and pharmacological properties and could be probable drug candidates to fight against M tuberculosis parasites.
结核分枝杆菌的持续感染需要乙醛酸循环支路。这是三羧酸循环的一条旁路,在该旁路中,异柠檬酸裂解酶(ICL)和苹果酸合酶(MS)在结核分枝杆菌以乙酸盐或脂肪酸作为主要碳源生长期间催化碳的净掺入。为了鉴定一种潜在的抗结核化合物,我们针对结核分枝杆菌MS(MtbMS)结构对ZINC数据库中的天然化合物(n = 167740)进行了基于结构的筛选。将这些配体与MtbMS进行筛选,发现354种配体具有更好的对接分数。对这些化合物进行了Lipinski规则以及吸收、分布、代谢、排泄和毒性预测评估,发现有15种化合物非常适合重新对接研究。经过分子对接和类药性分析优化后,鉴定出四种潜在抑制剂(ZINC1483899、ZINC1754310、ZINC2269664和ZINC15729522)。对这四种含苯基二酮酸的配体进一步进行分子动力学模拟,以比较配体结合后蛋白质结构的动力学和稳定性。计算结合能分析以确定分子间相互作用。我们的结果表明,对于ID分别为ZINC1483899、ZINC1754310、ZINC2269664和ZINC15729522的化合物,这四种化合物的结合自由能分别为-201.96、-242.02、-187.03和-169.02 kJ·mol 。我们得出结论,两种化合物(ZINC1483899和ZINC175431C)具有相当的结构和药理特性,可能是对抗结核分枝杆菌寄生虫的潜在候选药物。 (注:原文中ZINC175431C可能有误,推测应为ZINC1754310)
