天然化合物作为新型冠状病毒主要蛋白酶（3CLpro）的抑制剂：一种对抗新冠肺炎的分子对接和模拟方法

Natural Compounds as Inhibitors of SARS-CoV-2 Main Protease (3CLpro): A Molecular Docking and Simulation Approach to Combat COVID-19.

作者信息

Rehman Md Tabish, AlAjmi Mohamed F, Hussain Afzal

机构信息

Department of Pharmacognosy, College of Pharmacy, King Saud University, Riyadh-11451, Saudi Arabia.

出版信息

Curr Pharm Des. 2021;27(33):3577-3589. doi: 10.2174/1381612826999201116195851.

DOI:10.2174/1381612826999201116195851

PMID:33200697

Abstract

BACKGROUND

The emergence and dissemination of SARS-CoV-2 has caused high mortality and enormous economic loss. Rapid development of new drug molecules is the need of hour to fight COVID-19. However, the conventional approaches of drug development are time consuming and expensive. Here, we have adopted a computational approach to identify lead molecules from nature. Ligands from natural compounds library available at Selleck Inc (L1400) have been screened for their ability to bind and inhibit the main protease (3CLpro) of SARS-CoV-2.

METHODS

The natural compounds library of Selleck Inc. (Catalog No. L1400) were retrieved from www.selleckchem.com. It contains 2230 compounds in sdf format, curated from natural sources. Prior to molecular docking, all the ligands were prepared by adding hydrogen atoms and merging them with non-polar hydrogen atoms. Gasteiger partial charges were added, rotatable bonds were defined, and the energies were minimized using MMFF94 forcefield (11,12). The three-dimensional coordinates of the main protease (Mpro), also known as 3C-like protein (3CLpro), was downloaded from the protein databank available at https://www.rcsb.org/structure/6LU7. The structure was solved to a resolution of 2.16 Å and is bound with a peptide-like inhibitor (N3)(8). The structure of target was prepared for molecular docking by adding hydrogen atoms, Kollman united atom type charges and solvation parameters using AutoDock Tool (ADT) (13).

RESULTS

We found that Kaempferol, Quercetin, and Rutin were bound at the substrate binding pocket of 3CLpro with high affinity (105-106 M-1) and interact with the active site residues such as His41 and Cys145 through hydrogen bonding and hydrophobic interactions. In fact, the binding affinity of Rutin (~~106 M-1) was much higher than Chloroquine (~~103 M-1) and Hydroxychloroquine (~~104 M-1), and the reference drug Remdesivir (~~105 M-1).

CONCLUSION

The results suggest that natural compounds such as flavonoids have the potential to be developed as novel inhibitors of SARS-CoV-2 with a comparable/higher potency as that of Remdesivir. However, their clinical usage on COVID-19 patients is a subject of further investigations and clinical trials.

摘要

背景

严重急性呼吸综合征冠状病毒2（SARS-CoV-2）的出现和传播已导致高死亡率和巨大的经济损失。快速开发新的药物分子是抗击2019冠状病毒病（COVID-19）的当务之急。然而，传统的药物开发方法既耗时又昂贵。在此，我们采用了一种计算方法从自然界中识别先导分子。已对赛莱默公司（Selleck Inc）提供的天然化合物库（L1400）中的配体进行筛选，以确定其结合和抑制SARS-CoV-2主要蛋白酶（3CLpro）的能力。

方法

从www.selleckchem.com检索赛莱默公司的天然化合物库（产品目录编号L1400）。它包含2230种sdf格式的化合物，这些化合物来自天然来源。在进行分子对接之前，通过添加氢原子并将它们与非极性氢原子合并来制备所有配体。添加了Gasteiger部分电荷，定义了可旋转键，并使用MMFF94力场将能量最小化（11,12）。主要蛋白酶（Mpro），也称为3C样蛋白（3CLpro）的三维坐标，从https://www.rcsb.org/structure/6LU7上的蛋白质数据库下载。该结构的解析分辨率为2.16 Å，并与一种肽样抑制剂（N3）结合（8）。使用AutoDock工具（ADT）（13）通过添加氢原子、Kollman统一原子类型电荷和溶剂化参数来制备用于分子对接的靶标结构。

结果

我们发现山奈酚、槲皮素和芦丁以高亲和力（105 - 106 M-1）结合在3CLpro的底物结合口袋处，并通过氢键和疏水相互作用与活性位点残基如His41和Cys145相互作用。实际上，芦丁（约106 M-1）的结合亲和力远高于氯喹（约103 M-1）和羟氯喹（约104 M-1）以及参考药物瑞德西韦（约105 M-1）。

结论

结果表明，黄酮类化合物等天然化合物有潜力被开发为SARS-CoV-2的新型抑制剂，其效力与瑞德西韦相当/更高。然而，它们在COVID-19患者中的临床应用有待进一步研究和临床试验。

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天然化合物作为新型冠状病毒主要蛋白酶（3CLpro）的抑制剂：一种对抗新冠肺炎的分子对接和模拟方法

Natural Compounds as Inhibitors of SARS-CoV-2 Main Protease (3CLpro): A Molecular Docking and Simulation Approach to Combat COVID-19.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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