氯喹、Rimantadine和CAP-1作为十足目虹彩病毒1(DIV1)潜在抗病毒药物的分子对接和模拟研究

Wan-Atirah Azemin , Nur Farahin Ishak , Mohamad Amirul Asyraf Saedin , Mohd Shahir Shamsir , Siti Aisyah Razali
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摘要

药物再利用是一种确定现有药物新的治疗用途的方法。这是一种高效、节省时间和成本的策略,为传统的药物发现过程提供了一种替代方法。过去涉及分子对接的计算机研究已经成功地确定了用于包括水产养殖疾病在内的各种疾病治疗的潜在再利用药物。新出现的虾血细胞虹彩病毒(SHIV)或十足目虹彩病毒1(DIV1)是一种病毒病原体,在养殖虾中引起严重疾病和高死亡率(80%),造成严重的经济损失,并对养虾业构成新的威胁。因此,迫切需要有效的抗病毒药物来控制DIV1感染。本研究的目的是研究潜在的现有抗病毒药物氯喹、Rimantadine和CAP-1与DIV1主要衣壳蛋白(MCP)的相互作用,以探索药物再利用的潜力。利用分子对接和分子动力学模拟对DIV1 MCP和三种抗病毒药物的相互作用进行了表征和分析。结果表明,CAP-1是一种更有前景的对抗DIV1的候选物,其最低结合能为-8.46kcal/mol,并且与其他结合能相比更稳定。我们推测,CAP-1结合可能通过磷酸化多个残基(His123、Tyr162和Thr395)来诱导DIV1 MCP结构的构象变化,并最终阻断DIV1 MCP的病毒组装和成熟。据我们所知,这是第一份关于DIV1 MCP与再利用药物对接的结构表征的报告。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Molecular docking and simulation studies of Chloroquine, Rimantadine and CAP-1 as potential repurposed antivirals for decapod iridescent virus 1 (DIV1)

Drug repurposing is a methodology of identifying new therapeutic use for existing drugs. It is a highly efficient, time and cost-saving strategy that offers an alternative approach to the traditional drug discovery process. Past in-silico studies involving molecular docking have been successful in identifying potential repurposed drugs for the various treatment of diseases including aquaculture diseases. The emerging shrimp hemocyte iridescent virus (SHIV) or Decapod iridescent virus 1 (DIV1) is a viral pathogen that causes severe disease and high mortality (80 %) in farmed shrimps caused serious economic losses and presents a new threat to the shrimp farming industry. Therefore, effective antiviral drugs are critically needed to control DIV1 infections. The aim of this study is to investigate the interaction of potential existing antiviral drugs, Chloroquine, Rimantadine, and CAP-1 with DIV1 major capsid protein (MCP) with the intention of exploring the potential of drug repurposing. The interaction of the DIV1 MCP and three antivirals were characterised and analysed using molecular docking and molecular dynamics simulation. The results showed that CAP-1 is a more promising candidate against DIV1 with the lowest binding energy of -8.46 kcal/mol and is more stable compared to others. We speculate that CAP-1 binding may induce the conformational changes in the DIV1 MCP structure by phosphorylating multiple residues (His123, Tyr162, and Thr395) and ultimately block the viral assembly and maturation of DIV1 MCP. To the best of our knowledge, this is the first report regarding the structural characterisation of DIV1 MCP docked with repurposing drugs.

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