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通过基于结构的虚拟筛选、密度泛函理论(DFT)分析和分子动力学模拟研究优化贝达喹啉的心脏毒性,以鉴定选择性耐多药结核病抑制剂。

Optimizing Bedaquiline for cardiotoxicity by structure based virtual screening, DFT analysis and molecular dynamic simulation studies to identify selective MDR-TB inhibitors.

作者信息

Ahmad Iqrar, Jadhav Harsha, Shinde Yashodeep, Jagtap Vilas, Girase Rukaiyya, Patel Harun

机构信息

Division of Computer Aided Drug Design, Department of Pharmaceutical Chemistry, R. C. Patel Institute of Pharmaceutical Education and Research, Shirpur, Dhule, 425405 Maharashtra India.

出版信息

In Silico Pharmacol. 2021 Mar 23;9(1):23. doi: 10.1007/s40203-021-00086-x. eCollection 2021.

DOI:10.1007/s40203-021-00086-x
PMID:33854869
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7988025/
Abstract

UNLABELLED

Since the last 4 decades, Bedaquiline has been the first drug discovered as a new kind of anti-tubercular agent and received FDA approval in December 2012 to treat pulmonary multi-drug resistance tuberculosis (MDR-TB). It demonstrates excellent efficacy against MDR-TB by effectively inhibiting mycobacterial ATP synthase. In addition to these apparent assets of Bedaquiline, potential disadvantages of Bedaquiline include inhibition of the hERG (human Ether-à-go-related gene; KCNH2), potassium channel (concurrent risk of cardiac toxicity), and risk of phospholipidosis due to its more lipophilic nature. To assist the effective treatment of MDR-TB, highly active Bedaquiline analogs that display a better safety profile are urgently needed. A structure-based virtual screening approach was used to address the toxicity problems associated with Bedaquiline. Among the virtually screened compound, CID 15947587 had significant docking affinity (- 5.636 kcal/mol) and highest binding free energy (ΔG bind - 85.2703 kcal/mol) towards the ATP synthase enzyme with insignificant cardiotoxicity and lipophilicity. During MD simulation studies (50 ns), the molecule optimizes its conformation to fit better the active receptor site justifying the binding affinity. The obtained results showed that CID15947587 could be a useful template for further optimizing the MDR-TB inhibitor.

SUPPLEMENTARY INFORMATION

The online version contains supplementary material available at 10.1007/s40203-021-00086-x.

摘要

未标注

在过去的40年里,贝达喹啉是发现的第一种新型抗结核药物,并于2012年12月获得美国食品药品监督管理局(FDA)批准,用于治疗肺部耐多药结核病(MDR-TB)。它通过有效抑制分枝杆菌ATP合酶,对MDR-TB显示出优异的疗效。除了贝达喹啉这些明显的优点外,其潜在的缺点包括抑制人醚-去极化相关基因(hERG;KCNH2)钾通道(存在心脏毒性风险),以及由于其亲脂性更强而有发生磷脂沉积症的风险。为了辅助MDR-TB的有效治疗,迫切需要具有更好安全性的高活性贝达喹啉类似物。采用基于结构的虚拟筛选方法来解决与贝达喹啉相关的毒性问题。在虚拟筛选的化合物中,CID 15947587对ATP合酶具有显著的对接亲和力(-5.636千卡/摩尔)和最高的结合自由能(ΔG bind -85.2703千卡/摩尔),且心脏毒性和亲脂性不显著。在分子动力学模拟研究(50纳秒)中,该分子优化其构象以更好地契合活性受体位点,这证明了其结合亲和力。所得结果表明,CID15947587可能是进一步优化MDR-TB抑制剂的有用模板。

补充信息

在线版本包含可在10.1007/s40203-021-00086-x获取的补充材料。