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针对全球人群的 HIV-Gag 多价表位疫苗模型设计:反向疫苗学和免疫信息学。

Design of multivalent-epitope vaccine models directed toward the world's population against HIV-Gag polyprotein: Reverse vaccinology and immunoinformatics.

机构信息

HIV/AIDS Research Center, Institute of Health, Shiraz University of Medical Sciences, Shiraz, Iran.

Department of Immunology, School of Medicine, Isfahan University of Medical Sciences, Isfahan, Iran.

出版信息

PLoS One. 2024 Sep 27;19(9):e0306559. doi: 10.1371/journal.pone.0306559. eCollection 2024.

DOI:10.1371/journal.pone.0306559
PMID:39331650
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11432917/
Abstract

Significant progress has been made in HIV-1 research; however, researchers have not yet achieved the objective of eradicating HIV-1 infection. Accordingly, in this study, eucaryotic and procaryotic in silico vaccines were developed for HIV-Gag polyproteins from 100 major HIV subtypes and CRFs using immunoinformatic techniques to simulate immune responses in mice and humans. The epitopes located in the conserved domains of the Gag polyprotein were evaluated for allergenicity, antigenicity, immunogenicity, toxicity, homology, topology, and IFN-γ induction. Adjuvants, linkers, CTLs, HTLs, and BCL epitopes were incorporated into the vaccine models. Strong binding affinities were detected between HLA/MHC alleles, TLR-2, TLR-3, TLR-4, TLR-7, and TLR-9, and vaccine models. Immunological simulation showed that innate and adaptive immune cells elicited active and consistent responses. The human vaccine model was matched with approximately 93.91% of the human population. The strong binding of the vaccine to MHC/HLA and TLR molecules was confirmed through molecular dynamic stimulation. Codon optimization ensured the successful translation of the designed constructs into human cells and E. coli hosts. We believe that the HIV-1 Gag vaccine formulated in our research can reduce the challenges faced in developing an HIV-1 vaccine. Nevertheless, experimental verification is necessary to confirm the effectiveness of these vaccines in these models.

摘要

在 HIV-1 研究方面已经取得了重大进展;然而,研究人员尚未实现根除 HIV-1 感染的目标。因此,在这项研究中,使用免疫信息学技术为来自 100 种主要 HIV 亚型和 CRF 的 HIV-Gag 多蛋白开发了真核和原核计算机疫苗,以模拟小鼠和人类的免疫反应。评估了位于 Gag 多蛋白保守结构域内的表位的变应原性、抗原性、免疫原性、毒性、同源性、拓扑结构和 IFN-γ诱导。将佐剂、接头、CTL、HTL 和 BCL 表位纳入疫苗模型。检测到 HLA/MHC 等位基因、TLR-2、TLR-3、TLR-4、TLR-7 和 TLR-9 与疫苗模型之间的强结合亲和力。免疫模拟表明,先天和适应性免疫细胞引起了积极和一致的反应。人类疫苗模型与约 93.91%的人类人群相匹配。通过分子动力学刺激证实了疫苗与 MHC/HLA 和 TLR 分子的强结合。密码子优化确保了设计构建体在人类细胞和大肠杆菌宿主中的成功翻译。我们相信,我们研究中制定的 HIV-1 Gag 疫苗可以减少开发 HIV-1 疫苗所面临的挑战。然而,需要进行实验验证以确认这些疫苗在这些模型中的有效性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/601e/11432917/fe25b6376bce/pone.0306559.g009.jpg
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