植物化学物质作为治疗COVID-19的药物:一项计算机研究

Debraj Koiri, D. Chakraborty, P. Das, R. Rana, S. Chatterjee, Tanmoy L Das, P. Dhal
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引用次数: 1

摘要

自2019年12月以来,COVID-19在全球范围内的传播使世界大部分地区陷入停顿,影响了人们的日常生活和经济。在这种情况下,必须尽快研制出一种治疗方法。鉴于现有常规药物的一些不良副作用,世界各地的研究人员正在筛选天然抗病毒植物化学物质作为对抗COVID-19的潜在治疗剂。本文旨在综述一些特异性植物化学物质与SARS-CoV-2刺突糖蛋白受体结合域(RBD)的相互作用,并提出它们可能的治疗应用。文献检索是基于使用广谱植物化学物质对抗SARS-CoV-2和其他病毒进行的广泛的计算机研究。我们列出了26种专门针对S蛋白及其与宿主受体相互作用的植物化学物质。为了验证之前发表的结果,我们还使用AutoDockVina应用程序进行了分子对接,并根据它们的结合能确定了6种高潜力的植物化学物质用于治疗。除此之外,还考虑了这些化合物的可获得性、作用方式、毒性数据和成本效益。我们的综述根据其可获得性、毒理学结果和低生产成本,特别确定了6种可作为COVID-19潜在治疗方法的植物化学物质。然而,所有这些化合物都需要通过湿实验室实验进一步验证,并且只有在适当的试验之后才能批准临床使用。
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Phytochemicals as Therapeutics Against COVID-19: An In-Silico Study
Since December 2019, the worldwide spread of COVID-19 has brought the majority of the world to a standstill, affecting daily lives as well as economy. Under these conditions, it is imperative to develop a cure as soon as possible. On account of some of the adverse side effects of the existing conventional drugs, researchers all around the world are screening natural antiviral phytochemicals as potential therapeutic agents against COVID-19. This paper aims to review interactions of some specific phytochemicals with the receptor binding domain (RBD) of the Spike glycoprotein of SARS-CoV-2 and suggest their possible therapeutic applications. Literature search was done based on the wide array of in-silico studies conducted using broad spectrum phytochemicals against SARS-CoV-2 and other viruses. We shortlisted 26 such phytochemicals specifically targeting the S protein and its interactions with host receptors. To validate the previously published results, we also conducted molecular docking using the AutoDockVina application and identified 6 high potential phytochemicals for therapeutic use based on their binding energies. Besides this, availability of these compounds, their mode of action, toxicity data and cost-effectiveness were also taken into consideration. Our review specifically identifies 6 phytochemicals that can be used as potential treatments for COVID-19 based on their availability, toxicology results and low costs of production. However, all these compounds need to be further validated by wet lab experiments and should be approved for clinical use only after appropriate trials.
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