网络药理学结合分子对接揭示氢溴酸山莨菪碱注射液抗新型冠状病毒肺炎的机制

Network Pharmacology Integrated Molecular Docking Reveals the Mechanism of Anisodamine Hydrobromide Injection against Novel Coronavirus Pneumonia.

作者信息

Su Jinsong, Liu Zixuan, Liu Chuan, Li Xuanhao, Wang Yi, Zhao Jing, Wu Qingjiang, Zheng Shichao, Zhang Yi

机构信息

Ethnic Medicine Academic Heritage Innovation Research Center, Chengdu University of Traditional Chinese Medicine, Chengdu 611137, China.

Institute of Interdisciplinary Integrative Medicine Research, Shanghai University of Traditional Chinese Medicine, Shanghai 200000, China.

出版信息

Evid Based Complement Alternat Med. 2020 Aug 5;2020:5818107. doi: 10.1155/2020/5818107. eCollection 2020.

DOI:10.1155/2020/5818107

PMID:32802131

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7411467/

Abstract

BACKGROUND

The Coronavirus Disease 2019 (COVID-19) outbreak in Wuhan, China, was caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). Anisodamine hydrobromide injection (AHI), the main ingredient of which is anisodamine, is a listed drug for improving microcirculation in China. Anisodamine can improve the condition of patients with COVID-19.

MATERIALS AND METHODS

Protein-protein interactions obtained from the String databases were used to construct the protein interaction network (PIN) of AHI using Cytoscape. The crucial targets of AHI PIN were screened by calculating three topological parameters. Gene ontology and pathway enrichment analyses were performed. The intersection between the AHI component proteins and angiotensin-converting enzyme 2 (ACE2) coexpression proteins was analyzed. We further investigated our predictions of crucial targets by performing molecular docking studies with anisodamine.

RESULTS

The PIN of AHI, including 172 nodes and 1454 interactions, was constructed. A total of 54 crucial targets were obtained based on topological feature calculations. The results of Gene Ontology showed that AHI could regulate cell death, cytokine-mediated signaling pathways, and immune system processes. KEGG disease pathways were mainly enriched in viral infections, cancer, and immune system diseases. Between AHI targets and ACE2 coexpression proteins, 26 common proteins were obtained. The results of molecular docking showed that anisodamine bound well to all the crucial targets.

CONCLUSION

The network pharmacological strategy integrated molecular docking to explore the mechanism of action of AHI against COVID-19. It provides protein targets associated with COVID-19 that may be further tested as therapeutic targets of anisodamine.

摘要

背景

中国武汉爆发的2019冠状病毒病（COVID-19）由严重急性呼吸综合征冠状病毒2（SARS-CoV-2）引起。氢溴酸山莨菪碱注射液（AHI），其主要成分是山莨菪碱，是中国一种改善微循环的上市药物。山莨菪碱可改善COVID-19患者的病情。

材料与方法

利用从String数据库获得的蛋白质-蛋白质相互作用，使用Cytoscape构建AHI的蛋白质相互作用网络（PIN）。通过计算三个拓扑参数筛选AHI PIN的关键靶点。进行基因本体和通路富集分析。分析AHI成分蛋白与血管紧张素转换酶2（ACE2）共表达蛋白之间的交集。我们通过用山莨菪碱进行分子对接研究，进一步研究了对关键靶点的预测。

结果

构建了AHI的PIN，包括172个节点和1454个相互作用。基于拓扑特征计算共获得54个关键靶点。基因本体结果表明，AHI可调节细胞死亡、细胞因子介导的信号通路和免疫系统过程。KEGG疾病通路主要富集于病毒感染、癌症和免疫系统疾病。在AHI靶点与ACE2共表达蛋白之间，获得了26个共同蛋白。分子对接结果表明，山莨菪碱与所有关键靶点结合良好。

结论

网络药理学策略结合分子对接探索AHI抗COVID-19的作用机制。它提供了与COVID-19相关的蛋白质靶点，这些靶点可能作为山莨菪碱的治疗靶点进一步进行测试。

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网络药理学结合分子对接揭示氢溴酸山莨菪碱注射液抗新型冠状病毒肺炎的机制

Network Pharmacology Integrated Molecular Docking Reveals the Mechanism of Anisodamine Hydrobromide Injection against Novel Coronavirus Pneumonia.

作者信息

机构信息

出版信息

BACKGROUND

MATERIALS AND METHODS

RESULTS

CONCLUSION

背景

材料与方法

结果

结论

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