Structural Basis for Designing Multiepitope Vaccines Against COVID-19 Infection: In Silico Vaccine Design and Validation.

JMIR bioinformatics and biotechnology Pub Date : 2020-06-19 eCollection Date: 2020-01-01 DOI:10.2196/19371
Sukrit Srivastava, Sonia Verma, Mohit Kamthania, Rupinder Kaur, Ruchi Kiran Badyal, Ajay Kumar Saxena, Ho-Joon Shin, Michael Kolbe, Kailash C Pandey
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Abstract

Background: The novel coronavirus disease (COVID-19), which is caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), has led to the ongoing 2019-2020 pandemic. SARS-CoV-2 is a positive-sense single-stranded RNA coronavirus. Effective countermeasures against SARS-CoV-2 infection require the design and development of specific and effective vaccine candidates.

Objective: To address the urgent need for a SARS-CoV-2 vaccine, in the present study, we designed and validated one cytotoxic T lymphocyte (CTL) and one helper T lymphocyte (HTL) multi-epitope vaccine (MEV) against SARS-CoV-2 using various in silico methods.

Methods: Both designed MEVs are composed of CTL and HTL epitopes screened from 11 Open Reading Frame (ORF), structural and nonstructural proteins of the SARS-CoV-2 proteome. Both MEVs also carry potential B-cell linear and discontinuous epitopes as well as interferon gamma-inducing epitopes. To enhance the immune response of our vaccine design, truncated (residues 10-153) Onchocerca volvulus activation-associated secreted protein-1 was used as an adjuvant at the N termini of both MEVs. The tertiary models for both the designed MEVs were generated, refined, and further analyzed for stable molecular interaction with toll-like receptor 3. Codon-biased complementary DNA (cDNA) was generated for both MEVs and analyzed in silico for high level expression in a mammalian (human) host cell line.

Results: In the present study, we screened and shortlisted 38 CTL, 33 HTL, and 12 B cell epitopes from the 11 ORF protein sequences of the SARS-CoV-2 proteome. Moreover, the molecular interactions of the screened epitopes with their respective human leukocyte antigen allele binders and the transporter associated with antigen processing (TAP) complex were positively validated. The shortlisted screened epitopes were utilized to design two novel MEVs against SARS-CoV-2. Further molecular models of both MEVs were prepared, and their stable molecular interactions with toll-like receptor 3 were positively validated. The codon-optimized cDNAs of both MEVs were also positively analyzed for high levels of overexpression in a human cell line.

Conclusions: The present study is highly significant in terms of the molecular design of prospective CTL and HTL vaccines against SARS-CoV-2 infection with potential to elicit cellular and humoral immune responses. The epitopes of the designed MEVs are predicted to cover the large human population worldwide (96.10%). Hence, both designed MEVs could be tried in vivo as potential vaccine candidates against SARS-CoV-2.

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设计针对 COVID-19 感染的多靶标疫苗的结构基础:硅学疫苗设计与验证。
背景:由严重急性呼吸系统综合征冠状病毒 2(SARS-CoV-2)引起的新型冠状病毒病(COVID-19)导致了 2019-2020 年的持续大流行。SARS-CoV-2 是一种正义单链 RNA 冠状病毒。针对 SARS-CoV-2 感染的有效对策需要设计和开发特异、有效的候选疫苗:为了满足对 SARS-CoV-2 疫苗的迫切需求,我们在本研究中利用各种硅学方法设计并验证了一种细胞毒性 T 淋巴细胞 (CTL) 疫苗和一种辅助性 T 淋巴细胞 (HTL) 多表位疫苗 (MEV),以预防 SARS-CoV-2:设计的两种MEV均由从SARS-CoV-2蛋白质组的11个开放阅读框(ORF)、结构蛋白和非结构蛋白中筛选出的CTL和HTL表位组成。这两种 MEV 还带有潜在的 B 细胞线性和不连续表位以及干扰素γ诱导表位。为了增强疫苗设计的免疫反应,我们在两种 MEV 的 N 端使用了截短(残基 10-153)的盘尾丝虫活化相关分泌蛋白-1 作为佐剂。生成、完善和进一步分析了所设计的两种 MEV 的三级模型,以确定其与收费样受体 3 的稳定分子相互作用。我们生成了这两种 MEV 的密码子偏置互补 DNA(cDNA),并在哺乳动物(人类)宿主细胞系中进行了高水平表达分析:本研究从 SARS-CoV-2 蛋白体组的 11 个 ORF 蛋白序列中筛选出 38 个 CTL 表位、33 个 HTL 表位和 12 个 B 细胞表位。此外,筛选出的表位与各自的人类白细胞抗原等位基因结合体和抗原处理相关转运体(TAP)复合物的分子相互作用也得到了积极的验证。利用筛选出的表位设计了两种新型 MEV,以对抗 SARS-CoV-2。进一步制备了这两种 MEV 的分子模型,并对它们与收费样受体 3 的稳定分子相互作用进行了积极验证。此外,还对这两种 MEV 的密码子优化 cDNA 进行了积极分析,结果表明,这两种 MEV 在人体细胞系中的过表达水平都很高:结论:本研究对于设计具有激发细胞和体液免疫反应潜力的抗 SARS-CoV-2 感染的前瞻性 CTL 和 HTL 疫苗的分子设计意义重大。据预测,所设计的 MEV 的表位可覆盖全球大量人口(96.10%)。因此,这两种设计的 MEVs 都可以在体内试用,作为预防 SARS-CoV-2 的潜在候选疫苗。
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