National Institute of Pharmaceutical Education and Research, Hyderabad, Telangana, India.
J Biomol Struct Dyn. 2024 Oct;42(16):8242-8255. doi: 10.1080/07391102.2023.2245041. Epub 2023 Aug 9.
The re-emergence of the monkeypox virus (MPXV) in 2022 has become a global issue. The virus was first found in Denmark in 1958. The first human MPXV disease was reported in 1980 in Congo, caused by a rare zoonotic virus belonging to the genus Orthopoxvirus and the family Poxviridae. Like SARS-CoV, there are no specific drugs to treat this infection. Taking cues from the successful implementation of drug repositioning for the Covid-19 pandemic using in silico drug discovery. We employed structure-based drug design in the study to repurpose the existing drug and natural product derivatives libraries against MPXV. The E8 protein was chosen as a therapeutic target because it is a surface membrane protein involved in viral entry and adhesion to the host cell surface membrane. Our study was bifurcated into the following steps; determining and analyzing the structure of the E8, followed by structure-based virtual screening of different datasets (natural products obtained from bacteria and fungi and FDA-approved drugs) to identify the hits. Based on the best binding affinities and protein-ligand interactions, we further proceeded for molecular dynamic (MD) studies of the identified hits, which revealed Gabosine D (docking score = -8.469 kcal/mol, MM/GBSA dG bind = -41.6729 kcal/mol) and Edoxudine (docking score = -6.372 kcal/mol, MM/GBSA dG bind = -35.8291 kcal/mol) as the best lead molecules. MD simulation for 100 ns was performed in triplicate, and post MM/GBSA analysis was conducted, which proves the stability of the identified leads. In addition, their ADME profiles also confirmed their suitability as therapeutic options for the treatment of monkeypox.Communicated by Ramaswamy H. Sarma.
2022 年,猴痘病毒(MPXV)的再次出现成为了一个全球性问题。该病毒于 1958 年首次在丹麦被发现。1980 年,刚果报告了首例人类猴痘病例,该病毒是一种罕见的人畜共患病毒,属于正痘病毒属和痘病毒科。与 SARS-CoV 一样,目前尚无针对这种感染的特效药物。借鉴在 COVID-19 大流行中利用计算机药物发现成功进行药物再定位的经验。我们在研究中采用基于结构的药物设计,针对 MPXV 重新利用现有的药物和天然产物衍生物库。选择 E8 蛋白作为治疗靶点,因为它是一种参与病毒进入和与宿主细胞膜附着的表面膜蛋白。我们的研究分为以下步骤;确定和分析 E8 的结构,然后对不同数据集(从细菌和真菌中获得的天然产物和 FDA 批准的药物)进行基于结构的虚拟筛选,以识别命中物。根据最佳结合亲和力和蛋白-配体相互作用,我们进一步对鉴定出的命中物进行分子动力学(MD)研究,结果表明 Gabosine D(对接得分=-8.469 kcal/mol,MM/GBSA dG bind=-41.6729 kcal/mol)和 Edoxudine(对接得分=-6.372 kcal/mol,MM/GBSA dG bind=-35.8291 kcal/mol)是最佳的先导分子。进行了三次 100 ns 的 MD 模拟,并进行了 MM/GBSA 后分析,证明了鉴定出的先导物的稳定性。此外,它们的 ADME 特征也证实了它们作为治疗猴痘的治疗选择的适用性。由 Ramaswamy H. Sarma 交流。
