De novo drug design, pharmacophore search and molecular docking for inhibitors to treat TB and HIV co-infection

Int. J. Comput. Biol. Drug Des. Pub Date : 2019-07-07 DOI:10.1504/IJCBDD.2019.10022530

Satheeshkumar Sellamuthu, Ashok Kumar, S. Singh

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Abstract

Novel molecules were designed as possible inhibitors of ATP synthase through de novo drug design, but were not drug-like molecules. Hence, ZINC database was searched for drug-like molecules from the common pharmacophore of the designed molecules. A total of 472 hits were obtained, among them, ZINC39552534, ZINC39371747, and ZINC38959526 produced better docking than the standard drug Bedaquiline. The vulnerability of TB and HIV co-infection has necessitated the search for inhibitors effective against both the diseases. Hence, the hits obtained were further screened for possible interaction with HIV reverse transcriptase. ZINC63941671, ZINC05858010, and ZINC05857787 were found better over the standard drug Rilpivirine, but their interaction was least against ATP synthase. Further, ZINC38959526 (lead against ATP synthase) and ZINC05858010 (lead against reverse transcriptase) share some common chemical features and based on this, new hybrid molecules were designed to inhibit both the targets. The possibility of hERG toxicity was also checked to eliminate unwanted cardiotoxicity.

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新药物设计，药效团搜索和抑制剂分子对接治疗结核和艾滋病合并感染

通过从头开始的药物设计，设计了可能作为ATP合酶抑制剂的新分子，但不是药物样分子。因此，在锌数据库中从设计分子的共同药效团中搜索类药物分子。共获得472次命中，其中ZINC39552534、ZINC39371747、ZINC38959526的对接效果优于标准药贝达喹啉。结核病和艾滋病毒合并感染的易感性使人们有必要寻找对这两种疾病都有效的抑制剂。因此，获得的hit进一步筛选可能与HIV逆转录酶相互作用。ZINC63941671、ZINC05858010和ZINC05857787对ATP合酶的相互作用较弱，优于标准药物Rilpivirine。此外，ZINC38959526 (lead against ATP synthase)和ZINC05858010 (lead against逆转录酶)具有一些共同的化学特征，并在此基础上设计了新的杂交分子来抑制这两个靶点。还检查了hERG毒性的可能性，以消除不必要的心脏毒性。

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Int. J. Comput. Biol. Drug Des.

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