In-Silico Designing of a Multi-Epitope Vaccine against SARS-CoV2 and Studying the Interaction of the Vaccine with Alpha, Beta, Delta and Omicron Variants of Concern.

Q3 Pharmacology, Toxicology and Pharmaceutics Current drug discovery technologies Pub Date : 2023-01-01 DOI:10.2174/1570163819666220909114900

Aranya Pal, Nibedita Pyne, Santanu Paul

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Abstract

Background: The sudden appearance of the SARS-CoV2 virus has almost changed the future of vaccine development. There have been many different approaches to vaccination; among them, computational vaccinology in the form of multi-epitope vaccines with excellent immunological properties and minimal contamination or other adverse reactions has emerged as a promising strategy with a lot of room for further study in this area.

Objective: Designing a multi-epitope vaccine from the spike protein of SARS-CoV2 based on immunoinformatics and in-silico techniques. Evaluating the binding affinity of the constructed vaccine against the major variants of concern (alpha, beta, delta, and omicron) using docking studies.

Methods: The potential antigenic, immunogenic, and non-allergic T-cell epitopes were thoroughly explored using IEDB, NetCTL1.2, and NetMHCII pan 3.2 servers. The best suitable linker was identified using the ExPASy Protparam tool and VERIFY 3D. The 3D model of the vaccine was developed by RaptorX and the model was validated using ERRAT, Z-score, and Ramachandran Plot. Docking studies of the vaccine with TLR-2, 3, 4, and 7 and alpha, beta, delta, and omicron variants were performed using HADDOCK 2.4.

Results: The vaccine construct showed good antigenic and immunogenic scores and was non-allergic as well. The model was capable of binding to all four selected Toll-like receptors. Docking scores with variants were also promising.

Conclusion: All the variants showed good binding ability with the vaccine construct. Interaction with the alpha variant was found to be the most intense, followed by delta, beta, and omicron.

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抗SARS-CoV2多表位疫苗的芯片设计及与相关α、β、δ和Omicron变体的相互作用研究

背景:SARS-CoV2病毒的突然出现几乎改变了疫苗开发的未来。有许多不同的疫苗接种方法;其中，以多表位疫苗为形式的计算疫苗学具有优异的免疫学特性和最小的污染或其他不良反应，是一种有前景的策略，在该领域有很大的进一步研究空间。目的:基于免疫信息学和计算机技术设计SARS-CoV2刺突蛋白多表位疫苗。利用对接研究评估构建的疫苗对关注的主要变异(α、β、δ和组粒)的结合亲和力。方法:采用IEDB、NetCTL1.2和NetMHCII pan 3.2服务器，对潜在的抗原、免疫原性和非过敏性t细胞表位进行深入研究。使用ExPASy Protparam工具和VERIFY 3D确定了最合适的连接器。RaptorX开发了疫苗的3D模型，并使用ERRAT、Z-score和Ramachandran Plot对模型进行了验证。使用HADDOCK 2.4对该疫苗与TLR-2、3、4和7以及α、β、δ和组粒变异进行对接研究。结果:该疫苗结构具有良好的抗原性和免疫原性，且无过敏性。该模型能够与所有四种选定的toll样受体结合。与变体的对接分数也很有希望。结论:所有变异体均与疫苗结构具有良好的结合能力。与α变异的相互作用最为强烈，其次是δ、β和欧米克隆。

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来源期刊

Current drug discovery technologies Pharmacology, Toxicology and Pharmaceutics-Drug Discovery

CiteScore

3.70

自引率

0.00%

发文量

期刊介绍： Due to the plethora of new approaches being used in modern drug discovery by the pharmaceutical industry, Current Drug Discovery Technologies has been established to provide comprehensive overviews of all the major modern techniques and technologies used in drug design and discovery. The journal is the forum for publishing both original research papers and reviews describing novel approaches and cutting edge technologies used in all stages of drug discovery. The journal addresses the multidimensional challenges of drug discovery science including integration issues of the drug discovery process.