Halogenated Secondary Metabolites from Higher Plants: Potent Drug Candidates for Chikungunya Using in silico Approaches.

Polish journal of microbiology Pub Date : 2024-06-20 eCollection Date: 2024-06-01 DOI:10.33073/pjm-2024-020
Sushil Kumar, Nidhi Joshi, Gourav Choudhir, Sakshi Sharma, Abhay Tiwari, Sulaiman Ali Alharbi, Saleh Alfarraj, Mohammad Javed Ansari
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Abstract

Chikungunya virus (CHIKV) causes a debilitating fever and joint pain, with no specific antiviral treatment available. Halogenated secondary metabolites from plants are a promising new class of drug candidates against chikungunya, with unique properties that make them effective against the virus. Plants produce these compounds to defend themselves against pests and pathogens, and they are effective against a wide range of viruses, including chikungunya. This study investigated the interactions of halogenated secondary metabolites with nsP2pro, a therapeutic target for CHIKV. A library of sixty-six halogenated plant metabolites screened previously for ADME properties was used. Metabolites without violation of Lipinski's rule were docked with nsP2pro using AutoDock Vina. To find the stability of the pipoxide chlorohydrin-nsP2pro complex, the GROMACS suite was used for MD simulation. The binding free energy of the ligand-protein complex was computed using MMPBSA. Molecular docking studies revealed that halogenated metabolites interact with nsP2pro, suggesting they are possible inhibitors. Pipoxide chlorohydrin showed the greatest affinity to the target. This was further confirmed by the MD simulations, surface accessible area, and MMPBSA studies. Pipoxide chlorohydrin, a halogenated metabolite, was the most potent against nsP2pro in the survey.

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高等植物中的卤代次生代谢物:利用硅学方法研究治疗基孔肯雅病的有效候选药物。
基孔肯雅病毒(CHIKV)会导致发烧和关节疼痛,使人衰弱,目前还没有特效的抗病毒治疗方法。植物中的卤代次生代谢物是一种很有前景的抗基孔肯雅病毒候选药物,其独特的性质使它们能够有效地抗病毒。植物产生这些化合物是为了抵御害虫和病原体,它们对包括基孔肯雅病毒在内的多种病毒都有效。本研究调查了卤代次生代谢物与 nsP2pro 的相互作用,nsP2pro 是 CHIKV 的治疗靶点。研究使用了一个包含 66 种卤代植物代谢物的文库,该文库之前已对其 ADME 特性进行了筛选。使用 AutoDock Vina 将不违反利宾斯基规则的代谢物与 nsP2pro 进行对接。为了确定哌啶氯醇-nsP2pro 复合物的稳定性,使用了 GROMACS 套件进行 MD 模拟。使用 MMPBSA 计算了配体-蛋白质复合物的结合自由能。分子对接研究发现,卤代代谢物与 nsP2pro 发生了相互作用,表明它们可能是抑制剂。硫代氯醇与目标物的亲和力最大。MD 模拟、表面可及面积和 MMPBSA 研究进一步证实了这一点。在此次调查中,卤代代谢物 Pipoxide chlorohydrin 对 nsP2pro 的抑制作用最强。
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