Role of Furin Activation Sites as Receptors for Invasion of Severe Acute Respiratory Syndrome Coronavirus-2 Into Human Cells

BM Shareef, Vinod Joshi, B. Angel, Annette Angel, Bhawna Sharma, Neha Singh, Shilpa Barthwal, Poorna Khaneja, N. Peer, A. Khan, Ramesh Joshi, Kiran Yadav, Komal Tomar, Satendra Pal Singh
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Abstract

Objective: The severe acute type of respiratory distress caused by Coronavirus disease 2019 (COVID-19) was responsible for the global pandemic of 2019. While most of the focus of vaccine/drug molecules is on the receptor, there are certain enzymes that also need to be checked. Cell surface proteases are one of these. Activation of the virus spike protein becomes more complicated when many host proteases are involved. As many Variants of Concerns have been reported in severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), this study aimed to understand the proteolytic function of Furin in each, and its involvement in virus-host interaction. Material and Methods: Spike Protein sequence alignment, furin cleavage site prediction of variants: Wuhan, Alpha (B.1.1.7), Beta (B.1.351), Gamma (P.1), Delta (B.1.617.2) and Omicron (B.1.1.529), and protein-protein docking studies have been undertaken using appropriate bioinformatics tools. Results: It was observed that when compared to previous variations, the November 2021, outbreak of Omicron variant showed 50 amino acid substitutions in the Spike protein. Thus, in addition to the Angiotensin Converting Enzyme 2 (ACE-2) receptor, the role of virus binding sites to act as “Addition Receptors” for viral entry has been reported here. Conclusion: It was observed that substitution of basic amino acids in the Omicron variant may be responsible for the recognition of furin cleavage sites and the presence of furin cleavage site in the receptor binding domain (RBD) region will thus enhance viral transmission. If these sites are utilized in formulation of new drugs/vaccine molecules to target the furin hydrolyse sites, we may be able to add to the existing course of COVID-19 treatment.
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呋喃活化位点作为严重急性呼吸系统综合征冠状病毒-2 侵入人类细胞的受体的作用
目的:2019年冠状病毒病(COVID-19)引起的严重急性型呼吸困难是2019年全球大流行的罪魁祸首。虽然疫苗/药物分子的重点大多放在受体上,但也需要检查某些酶。细胞表面蛋白酶就是其中之一。当许多宿主蛋白酶参与时,病毒尖峰蛋白的激活会变得更加复杂。由于严重急性呼吸系统综合征冠状病毒 2(SARS-CoV-2)中出现了许多令人担忧的变异株,本研究旨在了解 Furin 在每种变异株中的蛋白水解功能及其在病毒-宿主相互作用中的参与情况。材料与方法尖峰蛋白序列比对、变体的呋喃裂解位点预测:武汉、阿尔法(B.1.1.7)、贝塔(B.1.351)、伽马(P.1)、德尔塔(B.1.617.2)和奥米克隆(B.1.1.529)变体,并使用适当的生物信息学工具进行蛋白质-蛋白质对接研究。结果观察发现,与之前的变体相比,2021 年 11 月爆发的 Omicron 变体在 Spike 蛋白中出现了 50 个氨基酸的替换。因此,除了血管紧张素转换酶 2(ACE-2)受体外,这里还报告了病毒结合位点作为病毒进入的 "添加受体 "的作用。结论观察发现,Omicron 变体中碱性氨基酸的替代可能是识别呋喃裂解位点的原因,而受体结合域(RBD)区域中呋喃裂解位点的存在将增强病毒的传播。如果利用这些位点来配制针对呋喃水解位点的新药物/疫苗分子,我们或许可以增加现有的 COVID-19 治疗疗程。
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0.60
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审稿时长
14 weeks
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