In-silico screening, molecular dynamics simulation and ADME evaluation of Onosma bracteata Wall. for antiviral activity against Chandipura virus.

In silico pharmacology Pub Date : 2025-04-25 eCollection Date: 2025-01-01 DOI:10.1007/s40203-025-00358-w

Bhavinkumar Gayakvad, Kshipra Chauhan, Vaibhav Bhatt, Devang J Pandya, Sanjay Chauhan, Dignesh Khunt, Udaykumar G Vegad

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Abstract

Chandipura Virus (CHPV) poses a significant public health challenge in India, specifically impacting children who are at a higher risk of developing Acute Encephalitis Syndrome (AES). There is a substantial lack of effective antiviral treatments for CHPV. This study delves into the potential antiviral properties of Onosma bracteata Wall., a traditional medicinal plant. Utilizing in-silico techniques, such as molecular docking with AutoDock Vina, and molecular dynamics simulations using GROMACS and SWISS-MODEL repository, we evaluated the interactions between the phytochemicals of O. bracteata and the N protein of CHPV. Our evaluation has uncovered several important compounds: Pulmonarioside C, Eritrichin, and P-Coumarinic Acid Ester of Trigonotin A. Phytochemicals including Pulmonarioside C, Eritrichin, and P-Coumarinic Acid Ester of Trigonotin A exhibited significant binding affinities of -8.7, -7.5, and -7.4 kcal/mol, respectively, with the N protein of CHPV. The binding energies exceed those of conventional antiviral medications, including Remdesivir (-7.4 kcal/mol) and Nevirapine (-6.0 kcal/mol). Nonetheless, the computational methods exhibit limitations, including insufficient accuracy in solvation effects and dependence on modeled proteins. Although the in-silico findings are encouraging, it is crucial to conduct experimental validation via in vitro and in vivo studies to verify their efficacy, as the experiments are conducted on a modelled protein. This study emphasizes the potential of integrating traditional medicine with computational tools to develop innovative antiviral therapies, despite existing limitations.

Supplementary information: The online version contains supplementary material available at 10.1007/s40203-025-00358-w.

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小苞草的硅晶筛选、分子动力学模拟及ADME评价。对钱迪普拉病毒的抗病毒活性

昌迪普拉病毒（CHPV）在印度构成了重大的公共卫生挑战，特别是影响到患急性脑炎综合征（AES）风险较高的儿童。目前对CHPV缺乏有效的抗病毒治疗。本研究探讨了小茴香的潜在抗病毒特性。一种传统的药用植物。利用与AutoDock Vina的分子对接、GROMACS和SWISS-MODEL repository的分子动力学模拟等硅技术，我们评估了O. brteata植物化学物质与CHPV N蛋白之间的相互作用。我们的评估发现了几个重要的化合物：葫芦巴苷C、利利黄素和葫芦巴苷A的对香豆素酸酯。植物化学物质，包括葫芦巴苷C、利利黄素和葫芦巴苷A的对香豆素酸酯，与CHPV的N蛋白的结合亲和度分别为-8.7、-7.5和-7.4千卡/摩尔。其结合能超过传统抗病毒药物，包括瑞德西韦（-7.4 kcal/mol）和奈韦拉平（-6.0 kcal/mol）。尽管如此，计算方法显示出局限性，包括在溶剂化效应的准确性不足和依赖于模型蛋白质。尽管计算机上的发现令人鼓舞，但通过体外和体内研究进行实验验证以验证其有效性至关重要，因为实验是在模拟蛋白质上进行的。这项研究强调了将传统医学与计算工具结合起来开发创新抗病毒疗法的潜力，尽管存在局限性。补充信息：在线版本包含补充资料，提供地址为10.1007/s40203-025-00358-w。

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In silico pharmacology

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