In silico fragment-based design and pharmacophore modelling of therapeutics against dengue virus envelope protein.

In silico pharmacology Pub Date : 2024-09-20 eCollection Date: 2024-01-01 DOI:10.1007/s40203-024-00262-9
Dwaipayan Chaudhuri, Satyabrata Majumder, Joyeeta Datta, Kalyan Giri
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Abstract

Dengue virus, an arbovirus of genus Flavivirus, is an infectious disease causing organisms in the tropical environment leading to numerous deaths every year. No therapeutic is available against the virus till date with only symptomatic relief available. Here, we have tried to design therapeutic compounds from scratch by fragment based method followed by pharmacophore based modelling to find suitable similar structure molecules and validated the same by MD simulation, followed by binding energy calculations and ADMET analysis. The receptor binding region of the dengue envelope protein was considered as the target for prevention of viral host cell entry and thus infection. This resulted in the final selection of kanamycin as a stable binding molecule against the Dengue virus envelope protein receptor binding domain. This study results in selection of a single molecule having high binding energy and prominent stable interactions as determined by post simulation analyses. This study aims to provide a direction for development of small molecule therapeutics against the dengue virus in order to control infection. This study may open a new avenue in the arena of structure based and fragment based therapeutic design to obtain novel molecules with therapeutic potential.

Supplementary information: The online version contains supplementary material available at 10.1007/s40203-024-00262-9.

针对登革热病毒包膜蛋白的基于片段的硅学设计和药理模型。
登革热病毒(Dengue virus)是一种黄病毒属的虫媒病毒,是热带环境中的一种传染性致病生物,每年导致无数人死亡。迄今为止,还没有针对该病毒的治疗方法,只能缓解症状。在此,我们尝试从头开始设计治疗性化合物,首先采用基于片段的方法,然后基于药理模型寻找合适的相似结构分子,并通过 MD 模拟、结合能计算和 ADMET 分析进行验证。登革热包膜蛋白的受体结合区被认为是防止病毒进入宿主细胞进而感染的目标。最终选择卡那霉素作为与登革热病毒包膜蛋白受体结合域稳定结合的分子。这项研究的结果是,通过后模拟分析确定了一种具有高结合能和突出稳定相互作用的单一分子。这项研究旨在为开发针对登革热病毒的小分子疗法提供一个方向,以控制感染。这项研究可能会在基于结构和片段的治疗设计领域开辟一条新的途径,以获得具有治疗潜力的新型分子:在线版本包含补充材料,可查阅 10.1007/s40203-024-00262-9。
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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