Development of a novel bivalent vaccine candidate against hepatitis A virus and rotavirus using reverse vaccinology and immunoinformatics

IF 3.5 4区医学 Q2 IMMUNOLOGY

Journal of Virus Eradication Pub Date : 2025-01-23 DOI:10.1016/j.jve.2024.100578

Hassan Yarmohammadi , Abbas Akhavan Sepahi , Mojtaba Hamidi-fard , Mohammadreza Aghasadeghi , Golnaz Bahramali

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引用次数: 0

Abstract

The hepatitis A virus (HAV) and rotavirus are mainly transmitted through fecal-oral and person-to-person contact, and cause severe gastrointestinal complications and liver disease. This work used reverse vaccinology and immunoinformatic methods to create a novel bivalent vaccine against rotavirus and HAV. The amino acid sequences of HAV-rotavirus proteins (VP1 and VP8∗) were retrieved from the GenBank database. Various computational approaches were employed to predict highly conserved regions and the most immunogenic B-cell and T-cell epitopes of VP8 and VP1 of rotavirus and HAV proteins in both humans and BALB/c. Moreover, the predicted fusion protein was analyzed regarding primary and secondary structures and homology validation. In this study, we used two highly conserved peptide sequences of VP8 and VP1 of rotavirus and HAV that induce T and B cell immunogenicity. According to T-cell epitope prediction, this area comprises 2713 antigenic peptides for HLA class II and 30 HLA class I antigenic peptides, both of which are virtually entirely conserved in the Iranian population. In this study, validation as well as analysis of the secondary and three-dimensional structure of the VP8∗-rotavirus + AAY + HAV-VP1 fusion protein, with the aim of designing a multi-epitope vaccine with different receptors. TLR 3, 4 high immunogenic binding ability with immunological properties and interaction between multi-epitope target and TLR were predicted, and it is expected that the target fusion protein has stable antigenic potency and compatible half-life. The above is suggested as a universal vaccination program.

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利用反向疫苗学和免疫信息学开发一种新的抗甲型肝炎病毒和轮状病毒二价候选疫苗

甲型肝炎病毒（HAV）和轮状病毒主要通过粪口接触和人际接触传播，可引起严重的胃肠道并发症和肝脏疾病。本研究利用反向疫苗学和免疫信息学方法制备了一种新型轮状病毒和甲肝双价疫苗。从GenBank数据库中检索hav -轮状病毒蛋白（VP1和VP8 *）的氨基酸序列。采用多种计算方法预测人类和BALB/c中轮状病毒和甲型肝炎蛋白VP8和VP1的高度保守区和最具免疫原性的b细胞和t细胞表位。并对预测的融合蛋白进行了一级和二级结构分析和同源性验证。在本研究中，我们利用轮状病毒和甲型肝炎的VP8和VP1两个高度保守的肽序列诱导T和B细胞的免疫原性。根据t细胞表位预测，该区域包含2713种HLA II类抗原肽和30种HLA I类抗原肽，这两种抗原肽在伊朗人群中几乎完全保守。在这项研究中，验证和分析VP8 * -轮状病毒+ AAY + HAV-VP1融合蛋白的二级和三维结构，目的是设计具有不同受体的多表位疫苗。预测了tlr3,4具有较高的免疫原性结合能力和免疫学特性，以及多表位靶点与TLR之间的相互作用，预计靶融合蛋白具有稳定的抗原性和相容的半衰期。以上建议作为一项普遍的疫苗接种计划。

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 Virus Eradication Medicine-Public Health, Environmental and Occupational Health

CiteScore

6.10

自引率

1.80%

发文量

审稿时长

39 weeks

期刊介绍： The Journal of Virus Eradication aims to provide a specialist, open-access forum to publish work in the rapidly developing field of virus eradication. The Journal covers all human viruses, in the context of new therapeutic strategies, as well as societal eradication of viral infections with preventive interventions. The Journal is aimed at the international community involved in the prevention and management of viral infections. It provides an academic forum for the publication of original research into viral reservoirs, viral persistence and virus eradication and ultimately development of cures. The Journal not only publishes original research, but provides an opportunity for opinions, reviews, case studies and comments on the published literature. It focusses on evidence-based medicine as the major thrust in the successful management of viral infections.The Journal encompasses virological, immunological, epidemiological, modelling, pharmacological, pre-clinical and in vitro, as well as clinical, data including but not limited to drugs, immunotherapy and gene therapy. It is an important source of information on the development of vaccine programs and preventative measures aimed at virus eradication.