An in silico approach towards exploration of the oxidative stress resistance of major withanolides of Withania somnifera in relation to COVID-19 management

Q4 Agricultural and Biological Sciences
Sangeetha Vinodkumar, Krishnapriya Santhanu, Kanimozhi Natarajan, Kalaiselvi Senthil
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引用次数: 2

Abstract

Oxidative stress is the state of imbalance between the production of reactive oxygen species (free radicals) in the biological system and the ability of the body to detoxify them resulting in increased accumulation of free radicals in the cells. This stress leads to weakening of the immune system thus leading to higher susceptibility to other infections as well. This also includes the weakening of the respiratory tract leading to increased susceptibility of viral infections as in the case of COVID-19. Treatment for any kind of abnormality requires the identification of the key target proteins and pathways that are being altered. Withania somnifera is being used in the traditional medicinal system to improve health and longevity thus creating a sense of mental as well as physical well being. The present study utilises network pharmacological approach to predict the potential oxidative stress targets of the three major withanolides: withanolide A, withaferin A and withanone. Primarily, the targets of the individual withanolides were obtained from the Swiss target and DIGEP-pred databases and the GO terms and lead hits related to oxidative stress were retrieved from AMIGO2 database. Totally 40 correlative hits were obtained as anti stress targets of the withanolides, which were subjected to functional enrichment and protein–protein interaction analysis to study the enriched pathways underlying oxidative stress response. Further the eleven crucial targets of the four selected pathways were analysed using molecular docking analysis. A total of forty protein hits were obtained as oxidative stress targets of the withanolides. Further, the pathway enrichment of these forty target genes showed the AGE RAGE signalling pathway as highly enriched pathway. Therefore, the AGE RAGE signalling pathway along with its underlying pathways namely MAPK signalling pathway, FOXO pathway and PI3-AKT pathway were chosen among all the other enriched pathways. Further the molecular docking analysis of the eleven target proteins falling under these four pathways showed good docking scores of the withanolides with all the eleven targets with the highest interaction against BCL2.  From the above study, the biological targets and associated pathways of the withanolides have been retrieved.  Thus the in silico approach undertaken in this study explores the role of the key withanolides in the antioxidant potential of the traditional medicinal plant Withania somnifera.
用计算机方法研究苦荞麦主要皂苷类抗氧化应激与COVID-19防治的关系
氧化应激是指生物系统中活性氧(自由基)的产生与身体解毒能力之间的不平衡状态,导致自由基在细胞中的积累增加。这种压力会导致免疫系统减弱,从而导致对其他感染的易感性增加。这还包括呼吸道的弱化,导致病毒感染的易感性增加,如新冠肺炎。治疗任何类型的异常都需要识别关键的靶蛋白和正在改变的途径。在传统医学体系中,大麻被用于改善健康和寿命,从而创造一种身心健康的感觉。本研究利用网络药理学方法来预测三种主要黄酮类化合物的潜在氧化应激靶点:黄酮类化合物A、黄酮A和黄酮酮。首先,从Swiss target和DIGEP-pred数据库中获得单独的维诺内酯的靶标,并从AMIGO2数据库中检索与氧化应激相关的GO术语和铅命中率。共获得40个相关的命中物作为黄酮内酯的抗应激靶标,对其进行功能富集和蛋白质-蛋白质相互作用分析,以研究氧化应激反应的富集途径。此外,使用分子对接分析对四种选定途径中的十一个关键靶标进行了分析。总共获得了40个蛋白质命中作为维他内酯的氧化应激靶标。此外,这40个靶基因的通路富集显示AGE-RAGE信号通路是高度富集的通路。因此,在所有其他富集途径中,选择了AGE-RAGE信号通路及其潜在途径,即MAPK信号通路、FOXO通路和PI3-AKT通路。此外,对这四种途径下的11个靶蛋白的分子对接分析显示,与BCL2具有最高相互作用的所有11个靶点的withanolides的对接得分良好。从上述研究中,已经检索到了黄酮内酯的生物学靶标和相关途径。因此,本研究中采用的计算机模拟方法探讨了关键的黄酮类化合物在传统药用植物紫薇抗氧化潜力中的作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Phytology
Journal of Phytology Agricultural and Biological Sciences-Plant Science
CiteScore
1.40
自引率
0.00%
发文量
17
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