Computational design, docking, and molecular dynamics simulation study of RNA helicase inhibitors of dengue virus.

IF 0.8 4区医学 Q4 INFECTIOUS DISEASES

Journal of Vector Borne Diseases Pub Date : 2024-05-06 DOI:10.4103/JVBD.JVBD_188_23

Raghunath Satpathy, Sonali Acharya, Rashmiranjan Behera

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引用次数: 0

Abstract

Background and objectives: RNA viruses are complex pathogens in terms of their genetic makeup, mutation frequency, and transmission modes. They contain the RNA helicase enzyme, which plays a crucial role in the viral genome replication process. This work aims to develop and screen a potential molecule that could function as a dengue virus (DENV) RNA helicase inhibitor.

Methods: The present study was performed by taking 26 potential derivatives of gedunin phytochemicals from the PubChem database as ligands. The binding study of the compounds were analyzed by in silico docking method considering DENV RNA helicase enzyme as the receptor.

Results: After a thorough analysis of the docking scores, toxicity, and physicochemical properties, compound tetrahydrogedunin was obtained as the best. Based on tetrahydrogedunin molecular structure, 100 drug-like molecules were designed using the Data Warrior tool. After the screening process for drug-likeness and ADMET properties, the derivative number 42 was considered as the promising. Further comparative docking of derivative 42 and a standard inhibitor molecule ST-610 with DENV RNA helicase enzyme showed binding affinity as -10.0 kcal/mol and -9.6 kcal/mol, respectively. The favorable interaction between DENV RNA helicase and derivative 42 was further validated by 50 nanoseconds molecular dynamics simulation and MM-GBSA analysis.

Interpretation conclusion: Since the antiviral activity of derivative 42 has not been reported till date, the compound was predicted as a novel therapeutic molecule that can act against the dengue virus (DENV) RNA helicase enzyme.

查看原文本刊更多论文

登革热病毒 RNA 螺旋酶抑制剂的计算设计、对接和分子动力学模拟研究。

背景和目的：RNA 病毒在基因构成、突变频率和传播方式等方面都是复杂的病原体。它们含有 RNA 螺旋酶，该酶在病毒基因组复制过程中起着至关重要的作用。本研究旨在开发和筛选一种可作为登革热病毒（DENV）RNA螺旋酶抑制剂的潜在分子：本研究从 PubChem 数据库中提取了 26 种潜在的 gedunin 植物化学衍生物作为配体。以 DENV RNA 螺旋酶为受体，通过硅对接法分析了这些化合物的结合情况：结果：在对对接得分、毒性和理化性质进行全面分析后，化合物四氢钩藤甙（tetrahydrogedunin）的结合效果最佳。根据四氢钩藤碱的分子结构，利用 Data Warrior 工具设计了 100 个类药物分子。经过药物相似性和 ADMET 特性的筛选，42 号衍生物被认为是最有希望的。进一步比较 42 号衍生物和标准抑制剂分子 ST-610 与 DENV RNA 螺旋酶的对接，结果显示两者的结合亲和力分别为 -10.0 kcal/mol 和 -9.6 kcal/mol。50纳秒分子动力学模拟和MM-GBSA分析进一步验证了DENV RNA螺旋酶与衍生物42之间的良好相互作用：由于迄今为止尚未报道过 42 号衍生物的抗病毒活性，因此该化合物被预测为一种可对抗登革热病毒（DENV）RNA 螺旋酶的新型治疗分子。

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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来源期刊

Journal of Vector Borne Diseases INFECTIOUS DISEASES-PARASITOLOGY

CiteScore

0.90

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： National Institute of Malaria Research on behalf of Indian Council of Medical Research (ICMR) publishes the Journal of Vector Borne Diseases. This Journal was earlier published as the Indian Journal of Malariology, a peer reviewed and open access biomedical journal in the field of vector borne diseases. The Journal publishes review articles, original research articles, short research communications, case reports of prime importance, letters to the editor in the field of vector borne diseases and their control.