Identification of potential antigenic proteins and epitopes for the development of a monkeypox virus vaccine: an in silico approach.

IF 3.9 2区 化学 Q2 CHEMISTRY, APPLIED Molecular Diversity Pub Date : 2024-11-15 DOI:10.1007/s11030-024-11033-1
Emre Aktaş, Osman Uğur Sezerman, Murat Özer, Kevser Kübra Kırboğa, Ahmet Efe Köseoğlu, Nehir Özdemir Özgentürk
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Abstract

Virus assembly, budding, or surface proteins play important roles such as viral attachment to cells, fusion, and entry into cells. The present study aimed to identify potential antigenic proteins and epitopes that could be used to develop a vaccine or diagnostic assay against the Monkeypox virus (MPXV) which may cause a potential epidemic. To do this, 39 MPXV proteins (including assembly, budding, and surface proteins) were analyzed using an in silico approach. Of these 39 proteins, the F5L virus protein was found to be the best vaccine candidate due to its signal peptide properties, negative GRAVY value, low transmembrane helix content, moderate aliphatic index, large molecular weight, long-estimated half-life, beta wrap motifs, and being stable, soluble, and containing non-allergic features. Moreover, the F5L protein exhibited alpha-helical secondary structures, making it a potential "structural antigen" recognized by antibodies. The other viral protein candidates were A9 and A43, but A9 lacked beta wrap motifs, while A43 had a positive GRAVY value and was insoluble. These two proteins were not as suitable candidates as the F5L protein. The KRVNISLTCL epitope from the F5L protein demonstrated the highest antigen score (2.4684) for MHC-I, while the GRFGYVPYVGYKCI epitope from the A9 protein exhibited the highest antigenicity (1.754) for MHC-II. Both epitopes met the criteria for high antigenicity, non-toxicity, solubility, non-allergenicity, and the presence of cleavage sites. Molecular docking and dynamics (MD) simulations further validated their potential, revealing stable and energetically favorable interactions with MHC molecules. The immunogenicity assessment showed that GRFGYVPYVGYKCI could strongly induce immune responses through both IFN-γ and IL-4 pathways, suggesting its capacity to provoke a balanced Th1 and Th2 response. In contrast, KRVNISLTCL exhibited limited immunostimulatory potential. Overall, these findings lay the groundwork for future vaccine development, indicating that F5L, particularly the GRFGYVPYVGYKCI epitope, may serve as an effective candidate for peptide-based vaccine design against MPXV.

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为开发猴痘病毒疫苗鉴定潜在的抗原蛋白和表位:一种硅学方法。
病毒的组装、出芽或表面蛋白在病毒附着于细胞、融合和进入细胞等方面发挥着重要作用。本研究旨在确定潜在的抗原蛋白和表位,用于开发针对可能导致流行病的猴痘病毒(MPXV)的疫苗或诊断检测。为此,研究人员采用硅学方法分析了 39 种 MPXV 蛋白(包括组装蛋白、出芽蛋白和表面蛋白)。在这 39 种蛋白中,F5L 病毒蛋白因其信号肽特性、负 GRAVY 值、跨膜螺旋含量低、脂肪指数适中、分子量大、估计半衰期长、β 包膜图案、稳定、可溶性和含有非过敏特性而被认为是最佳候选疫苗。此外,F5L 蛋白还具有α-螺旋二级结构,因此有可能成为抗体识别的 "结构抗原"。其他候选病毒蛋白是 A9 和 A43,但 A9 缺乏贝塔包络基团,而 A43 的 GRAVY 值为正,且不溶解。这两种蛋白不如 F5L 蛋白合适。F5L 蛋白的 KRVNISLTCL 表位对 MHC-I 的抗原性得分最高(2.4684),而 A9 蛋白的 GRFGYVPYVGYKCI 表位对 MHC-II 的抗原性得分最高(1.754)。这两个表位都符合高抗原性、无毒性、可溶性、无致敏性和存在裂解位点的标准。分子对接和动力学(MD)模拟进一步验证了它们的潜力,揭示了它们与 MHC 分子之间稳定的、能量上有利的相互作用。免疫原性评估显示,GRFGYVPYVGYKCI 可通过 IFN-γ 和 IL-4 途径强烈诱导免疫反应,这表明它有能力激发 Th1 和 Th2 平衡反应。相比之下,KRVNISLTCL 的免疫刺激潜力有限。总之,这些发现为未来的疫苗开发奠定了基础,表明 F5L,尤其是 GRFGYVPYVGYKCI 表位,可能成为基于肽的 MPXV 疫苗设计的有效候选物。
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
Molecular Diversity
Molecular Diversity 化学-化学综合
CiteScore
7.30
自引率
7.90%
发文量
219
审稿时长
2.7 months
期刊介绍: Molecular Diversity is a new publication forum for the rapid publication of refereed papers dedicated to describing the development, application and theory of molecular diversity and combinatorial chemistry in basic and applied research and drug discovery. The journal publishes both short and full papers, perspectives, news and reviews dealing with all aspects of the generation of molecular diversity, application of diversity for screening against alternative targets of all types (biological, biophysical, technological), analysis of results obtained and their application in various scientific disciplines/approaches including: combinatorial chemistry and parallel synthesis; small molecule libraries; microwave synthesis; flow synthesis; fluorous synthesis; diversity oriented synthesis (DOS); nanoreactors; click chemistry; multiplex technologies; fragment- and ligand-based design; structure/function/SAR; computational chemistry and molecular design; chemoinformatics; screening techniques and screening interfaces; analytical and purification methods; robotics, automation and miniaturization; targeted libraries; display libraries; peptides and peptoids; proteins; oligonucleotides; carbohydrates; natural diversity; new methods of library formulation and deconvolution; directed evolution, origin of life and recombination; search techniques, landscapes, random chemistry and more;
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