An mRNA-based reverse-vaccinology strategy to stimulate the immune response against Nipah virus in humans using fusion glycoproteins.

IF 1.4 4区 生物学 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY Acta biochimica Polonica Pub Date : 2023-09-17 DOI:10.18388/abp.2020_6721
Muhammad Naveed, Sarmad Mehmood, Tariq Aziz, Muhammad Hammad Arif, Urooj Ali, Faisal Nouroz, Christos Zacharis, Metab Alharbi, Abdulrahman Alshammari, Abdullah F Alasmari
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Abstract

The zoonotic pathogen, Nipah virus, is considered a potential healthcare threat due to its high mortality rates and detrimental symptoms like encephalitis. Ribavirin, an antiviral drug helps in overcoming the number of casualties and reducing the mortality rate, but no long-lasting solution has been proposed yet putting global health security in jeopardy. Given the cognizance of mRNA-based vaccines as safe and efficacious preventative strategies against pathogens, the current study has utilized the reverse-vaccinology approach coupled with immunoinformatics to propose an mRNA-based vaccine candidate against the Nipah virus. To ensure the effectiveness of the vaccine candidate against all strains of Nipah and associated viruses, three fusion glycoproteins from Nipah and Hendra viruses were selected. A total of 30 potential epitopes, 10 B-cell-, 10 MHC-I-, and 10 MHC-II-specific, were screened for the construct. The finalized epitopes were highly antigenic with scores ranging from 0.75 to 1.7615 at a threshold of 0.4 for viruses and non-homologous to Homo sapiens eradicating any chance of immune tolerance. The construct, with a World population coverage of 97.2%, was structurally stable, thermostable, and hydrophilic with indices of 32.91, 93.62, and -0.002, respectively. The vaccine candidate's tertiary structure was predicted with a TM score of 0.131 and the refined model displayed superlative RAMA improvement (98.2) and MolProbity score (0.975). A quality factor of 93.5421% further validated the structural quality and stability. A prompt and stable immune response was also simulated, and the vaccine candidate was shown to eliminate from the body within the first five days of injection. Immune complexes count of 7000 mg/mL was predicted against the antigen with a small but nonsignificant danger signal, countered by the cytokines. Lastly, strong molecular interactions of the vaccine candidate with TLR-3 (331.09 kcal/mol) and TLR-4 (-333.31 kcal/mol) and molecular dynamics simulation analysis authenticated the immunogenic potential of the vaccine candidate. This vaccine candidate can serve as a foundation for future in-vitro and in-vivo trials to minimize or eradicate the diseases associated with the Nipah virus or the Henipaviral family.

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一种基于信使核糖核酸的反向疫苗学策略,使用融合糖蛋白刺激人类对尼帕病毒的免疫反应。
人畜共患病原体尼帕病毒因其高死亡率和脑炎等有害症状而被认为是潜在的医疗威胁。利巴韦林是一种抗病毒药物,有助于减少伤亡人数和降低死亡率,但目前还没有提出长期的解决方案,这将危及全球健康安全。鉴于基于信使核糖核酸的疫苗被认为是针对病原体的安全有效的预防策略,目前的研究利用反向疫苗学方法结合免疫信息学,提出了一种针对尼帕病毒的信使核糖核酸候选疫苗。为了确保候选疫苗对所有尼帕毒株和相关病毒的有效性,从尼帕病毒和亨德拉病毒中选择了三种融合糖蛋白。共筛选了30个潜在的表位,10个B细胞特异性、10个MHC-I特异性和10个MHC II特异性。最终确定的表位具有高度的抗原性,病毒的得分在0.75至1.7615之间,阈值为0.4,与智人的非同源性消除了任何免疫耐受的机会。该构建体的世界人口覆盖率为97.2%,结构稳定、耐热、亲水,指数分别为32.91、93.62和-0.002。候选疫苗的三级结构预测的TM得分为0.131,精细模型显示出最高的RAMA改善(98.2)和MolProbity得分(0.975)。93.5421%的质量因子进一步验证了结构质量和稳定性。还模拟了快速稳定的免疫反应,候选疫苗在注射的前五天内从体内消除。预测针对抗原的免疫复合物计数为7000 mg/mL,具有小但不显著的危险信号,由细胞因子对抗。最后,候选疫苗与TLR-3(331.09kcal/mol)和TLR-4(-333.31kcal/mol)的强分子相互作用和分子动力学模拟分析验证了候选疫苗的免疫原性潜力。这种候选疫苗可以作为未来体外和体内试验的基础,以最大限度地减少或根除与尼帕病毒或亨尼帕病毒家族相关的疾病。
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来源期刊
Acta biochimica Polonica
Acta biochimica Polonica 生物-生化与分子生物学
CiteScore
2.40
自引率
0.00%
发文量
99
审稿时长
4-8 weeks
期刊介绍: Acta Biochimica Polonica is a journal covering enzymology and metabolism, membranes and bioenergetics, gene structure and expression, protein, nucleic acid and carbohydrate structure and metabolism.
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