Recuperative potential of Indian medicinal plant compounds- a tool to encumber henipaviruses: an in -silico study.

In silico pharmacology Pub Date : 2024-08-02 eCollection Date: 2024-01-01 DOI:10.1007/s40203-024-00236-x

Sukanth Kumar Enmozhi, Infant Xavier, Theepan Raaj, R Sarveswaran, Jeba Blessings, Yugesh Kesavamoorthy, Rahul Vivek, Kavitha Raja, Irudhayasamy Sebastine, Antony Jeffri, Sumathy Arockiasamy, Jerrine Joseph, Ananda Rani

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Abstract

Henipaviruses, highly fatal zoonotic viruses with mortality rates up to 100%, pose a significant threat to humans. Despite sporadic cases, including infections from Cedar, Langya, and Nipah Viruses, there are no established drugs or vaccines for treatment. This lack of specific medication led us to explore 57 non-toxic compounds from Indian Medicinal Plants, selected from 232 compounds, aiming to combat these viruses. Through in silico ADMET analyses, Three compounds-andrographolide, pterygospermin and Salidroside-stood out for their exceptional non-toxic properties. These compounds underwent in silico target prediction, molecular docking and dynamics with Cedar, Langya, and Nipah Virus proteins from the Protein Data Bank. Among them, Andrographolide displayed the most promising negative free energy scores and stability in Cedar Virus-Attachment G-Protein binding pockets. Pterygospermin and Salidroside showed efficacy against Langya and Nipah Virus target proteins throughout the simulation. These compounds not only exhibited antiviral properties but also demonstrated immunomodulatory, anti-inflammatory, and hepatoprotective effects by our in-silico studies. Their potential as treatments or preventive measures against henipaviral infections makes them promising candidates for further research and development.

Supplementary information: The online version contains supplementary material available at 10.1007/s40203-024-00236-x.

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印度药用植物化合物的恢复潜力--遏制母鸡病毒的工具：一项微观研究。

禽流感病毒是高度致命的人畜共患病毒，死亡率高达 100%，对人类构成严重威胁。尽管有零星病例，包括雪松病毒、琅琊病毒和尼帕病毒感染，但目前还没有成熟的药物或疫苗用于治疗。由于缺乏特效药物，我们从印度药用植物的 232 种化合物中挑选出 57 种无毒化合物进行研究，旨在对抗这些病毒。通过硅学 ADMET 分析，三种化合物--穿心莲内酯、翼叶黄素和 Salidroside 因其卓越的无毒特性而脱颖而出。这些化合物与蛋白质数据库中的雪松、琅琊和尼帕病毒蛋白质进行了硅学目标预测、分子对接和动力学分析。其中，穿心莲内酯在雪松病毒附着 G 蛋白结合口袋中显示出最有希望的负自由能得分和稳定性。Pterygospermin 和 Salidroside 在整个模拟过程中都显示出对 Langya 和 Nipah 病毒目标蛋白的功效。这些化合物不仅具有抗病毒特性，而且通过我们的分子研究还显示出免疫调节、抗炎和保肝作用。这些化合物具有治疗或预防母鸡病毒感染的潜力，因此有望得到进一步的研究和开发：在线版本包含补充材料，可查阅 10.1007/s40203-024-00236-x。

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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In silico pharmacology

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