计算机模拟证据表明，美丽镰刀菌素对 SARS-CoV-2 具有抗病毒活性。

In silico evidence of beauvericin antiviral activity against SARS-CoV-2.

机构信息

Department of Natural Sciences, School of Arts and Sciences, Lebanese American University, Byblos Campus, P.O. Box 36, Byblos, Lebanon.

Division of Genomics and Translational Biomedicine, College of Health and Life Sciences, Hamad Bin Khalifa University, P.O. Box 34110, Doha, Qatar.

出版信息

Comput Biol Med. 2022 Feb;141:105171. doi: 10.1016/j.compbiomed.2021.105171. Epub 2021 Dec 25.

DOI:10.1016/j.compbiomed.2021.105171

PMID:34968860

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8709726/

Abstract

BACKGROUND

Scientists are still battling severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), the virus responsible for the coronavirus 2019 (COVID-19) pandemic so human lives can be saved worldwide. Secondary fungal metabolites are of intense interest due to their broad range of pharmaceutical properties. Beauvericin (BEA) is a secondary metabolite produced by the fungus Beauveria bassiana. Although promising anti-viral activity has previously been reported for BEA, studies investigating its therapeutic potential are limited.

METHODS

The objective of this study was to assess the potential usage of BEA as an anti-viral molecule via protein-protein docking approaches using MolSoft.

RESULTS

In-silico results revealed relatively favorable binding energies for BEA to different viral proteins implicated in the vital life stages of this virus. Of particular interest is the capability of BEA to dock to both the main coronavirus protease (Pockets A and B) and spike proteins. These results were validated by molecular dynamic simulation (Gromacs). Several parameters, such as root-mean-square deviation/fluctuation, the radius of gyration, H-bonding, and free binding energy were analyzed. Computational analyses revealed that interaction of BEA with the main protease pockets in addition to the spike glycoprotein remained stable.

CONCLUSION

Altogether, our results suggest that BEA might be considered as a potential competitive and allosteric agonist inhibitor with therapeutic options for treating COVID-19 pending in vitro and in vivo validation.

摘要

背景

科学家仍在与引发 2019 年冠状病毒病（COVID-19）大流行的严重急性呼吸综合征冠状病毒 2（SARS-CoV-2）作斗争，以拯救全世界的生命。次级真菌代谢物因其广泛的药物特性而受到极大关注。淡紫拟青霉毒素（BEA）是一种由淡紫拟青霉产生的次级代谢产物。尽管之前已有报道称 BEA 具有有希望的抗病毒活性，但研究其治疗潜力的研究有限。

方法

本研究的目的是通过 MolSoft 的蛋白质-蛋白质对接方法评估 BEA 作为抗病毒分子的潜在用途。

结果

计算机模拟结果显示，BEA 与该病毒重要生命阶段所涉及的不同病毒蛋白具有相对有利的结合能。特别值得注意的是，BEA 能够与主要冠状病毒蛋白酶（口袋 A 和 B）和刺突蛋白结合。这些结果通过分子动力学模拟（Gromacs）得到了验证。分析了几个参数，如均方根偏差/波动、回转半径、氢键和自由结合能。计算分析表明，BEA 与主蛋白酶口袋以及刺突糖蛋白的相互作用保持稳定。

结论

总之，我们的结果表明，BEA 可能被认为是一种有前途的竞争性和变构激动剂抑制剂，具有治疗 COVID-19 的治疗选择，尚待体外和体内验证。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c600/8709726/3d2945d6f504/ga1_lrg.jpg

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计算机模拟证据表明，美丽镰刀菌素对 SARS-CoV-2 具有抗病毒活性。

In silico evidence of beauvericin antiviral activity against SARS-CoV-2.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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