Structure-based discovery of F. religiosa phytochemicals as potential inhibitors against Monkeypox (mpox) viral protein

Q1 Social Sciences
Ranjan K. Mohapatra , Ahmed Mahal , Pranab K. Mohapatra , Ashish K. Sarangi , Snehasish Mishra , Meshari A. Alsuwat , Nada N. Alshehri , Sozan M. Abdelkhalig , Mohammed Garout , Mohammed Aljeldah , Ahmad A. Alshehri , Ahmed Saif , Mohammed Abdulrahman Alshahrani , Ali S. Alqahtani , Yahya A. Almutawif , Hamza M.A. Eid , Faisal M Albaqami , Mohnad Abdalla , Ali A. Rabaan
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引用次数: 0

Abstract

Outbreaks of Monkeypox (mpox) in over 100 non-endemic countries in 2022 represented a serious global health concern. Once a neglected disease, mpox has become a global public health issue. A42R profilin-like protein from mpox (PDB ID: 4QWO) represents a potential new lead for drug development and may interact with various synthetic and natural compounds. In this report, the interaction of A42R profilin-like protein with six phytochemicals found in the medicinal plant Ficus religiosa (abundant in India) was examined. Based on the predicted and compared protein–ligand binding energies, biological properties, IC50 values and toxicity, two compounds, kaempferol (C-1) and piperine (C-4), were selected. ADMET characteristics and quantitative structure–activity relationship (QSAR) of these two compounds were determined, and molecular dynamics (MD) simulations were performed. In silico examination of the kaempferol (C-1) and piperine (C-4) interactions with A42R profilin-like protein gave best-pose ligand-binding energies of –6.98 and –5.57 kcal/mol, respectively. The predicted IC50 of C-1 was 7.63 μM and 82 μM for C-4. Toxicity data indicated that kaempferol and piperine are non-mutagenic, and the QSAR data revealed that piperlongumine (5.92) and piperine (5.25) had higher log P values than the other compounds examined. MD simulations of A42R profilin-like protein in complex with C-1 and C-4 were performed to examine the stability of the ligand–protein interactions. As/C and C-4 showed the highest affinity and activities, they may be suitable lead candidates for developing mpox therapeutic drugs. This study should facilitate discovering and synthesizing innovative therapeutics to address other infectious diseases.

基于结构发现 F. religiosa 植物化学物质作为猴痘 (mpox) 病毒蛋白的潜在抑制剂
2022 年,猴痘在 100 多个非流行国家爆发,成为全球严重的健康问题。猴痘曾经是一种被忽视的疾病,如今已成为一个全球性的公共卫生问题。痘苗中的 A42R 侧蛋白样蛋白(PDB ID:4QWO)是药物开发的潜在新线索,可能与多种合成化合物和天然化合物相互作用。在本报告中,研究人员考察了 A42R 蛋白与药用植物 Ficus religiosa(印度盛产)中的六种植物化学物质之间的相互作用。根据预测和比较的蛋白配体结合能、生物特性、IC50 值和毒性,选出了两种化合物,即山奈酚(C-1)和胡椒碱(C-4)。确定了这两种化合物的 ADMET 特性和定量结构-活性关系(QSAR),并进行了分子动力学(MD)模拟。通过对山奈酚(C-1)和胡椒碱(C-4)与 A42R 类扁平苔藓蛋白的相互作用进行硅学研究,得出的最佳配体结合能分别为 -6.98 和 -5.57 kcal/mol。预测 C-1 的 IC50 为 7.63 μM,C-4 为 82 μM。毒性数据表明,山奈酚和胡椒碱不具有致突变性,QSAR 数据显示,胡椒龙葵碱(5.92)和胡椒碱(5.25)的对数 P 值高于所研究的其他化合物。为了研究配体与蛋白质之间相互作用的稳定性,我们对 A42R 类扁平苔藓蛋白与 C-1 和 C-4 的复合物进行了 MD 模拟。As/C和C-4显示出最高的亲和力和活性,它们可能是开发mpox治疗药物的合适候选先导化合物。这项研究将有助于发现和合成治疗其他传染病的创新药物。
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来源期刊
Journal of Biosafety and Biosecurity
Journal of Biosafety and Biosecurity Social Sciences-Linguistics and Language
CiteScore
6.00
自引率
0.00%
发文量
20
审稿时长
41 days
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