Jianing Zhang, Can Yue, Yin Lin, Jinmin Tian, Yuanyuan Guo, Danni Zhang, Yaxin Guo, Beiwei Ye, Yan Chai, Jianxun Qi, Yingze Zhao, George F Gao, Zeyu Sun, Jun Liu
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The heterogeneous T cell responses can be attributed to the distinct preference of HLA-A*2601 and HLA-A*0101 to T cell epitope motifs with negative-charged residues at the P1 and P3 positions, respectively. Furthermore, we determined the crystal structures of the HLA-A*2601 complexed to four peptides derived from SARS-CoV-2 and human papillomavirus, with one structure of HLA-A*0101 for comparison. The shallow pocket C of HLA-A*2601 results in the promiscuous presentation of peptides with \"switchable\" bulged conformations because of the secondary anchor in the median portion. Notably, the hydrogen bond network formed between the negative-charged P1 anchors and the HLA-A*2601-specific residues lead to a \"closed\" conformation and solid placement for the P1 secondary anchor accommodation in pocket A. 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引用次数: 0
摘要
与 HLA 相关的个体对 COVID-19 等新兴病毒性疾病的易感性突出表明,了解 HLA 多态性如何影响肽的呈现和 T 细胞识别非常重要。HLA-A*0101 是人类中最早发现的 HLA 等位基因之一,与 HLA-A*2601 类似,HLA-A*2601 也具有类似的结合肽特性,是 HLA-I 中的一种普遍异构体。在这项研究中,我们发现与 HLA-A*0101 相比,HLA-A*2601 人在感染和/或接种疫苗后对 SARS-CoV-2 和流感病毒的 T 细胞反应表现出不同的特征。这种异质性的 T 细胞反应可归因于 HLA-A*2601 和 HLA-A*0101 对分别位于 P1 和 P3 位带负电荷残基的 T 细胞表位基团的不同偏好。此外,我们还测定了 HLA-A*2601 与来自 SARS-CoV-2 和人类乳头瘤病毒的四种多肽复合的晶体结构,并与 HLA-A*0101 的一个结构进行了对比。HLA-A*2601 的 C 袋较浅,由于中间部分有二级锚,因此可以杂乱地呈现具有 "可切换 "隆起构象的多肽。值得注意的是,带负电荷的 P1 锚点和 HLA-A*2601 特异残基之间形成的氢键网络导致了 P1 次级锚点在口袋 A 中的 "封闭 "构象和稳固位置。这一发现揭示了 HLA I 等位基因异构体、肽结合和免疫反应之间错综复杂的关系,为了解疾病易感性和潜在的疫苗设计提供了宝贵的启示。
Uncommon P1 Anchor-featured Viral T Cell Epitope Preference within HLA-A*2601 and HLA-A*0101 Individuals.
The individual HLA-related susceptibility to emerging viral diseases such as COVID-19 underscores the importance of understanding how HLA polymorphism influences peptide presentation and T cell recognition. Similar to HLA-A*0101, which is one of the earliest identified HLA alleles among the human population, HLA-A*2601 possesses a similar characteristic for the binding peptide and acts as a prevalent allomorph in HLA-I. In this study, we found that, compared with HLA-A*0101, HLA-A*2601 individuals exhibit distinctive features for the T cell responses to SARS-CoV-2 and influenza virus after infection and/or vaccination. The heterogeneous T cell responses can be attributed to the distinct preference of HLA-A*2601 and HLA-A*0101 to T cell epitope motifs with negative-charged residues at the P1 and P3 positions, respectively. Furthermore, we determined the crystal structures of the HLA-A*2601 complexed to four peptides derived from SARS-CoV-2 and human papillomavirus, with one structure of HLA-A*0101 for comparison. The shallow pocket C of HLA-A*2601 results in the promiscuous presentation of peptides with "switchable" bulged conformations because of the secondary anchor in the median portion. Notably, the hydrogen bond network formed between the negative-charged P1 anchors and the HLA-A*2601-specific residues lead to a "closed" conformation and solid placement for the P1 secondary anchor accommodation in pocket A. This insight sheds light on the intricate relationship between HLA I allelic allomorphs, peptide binding, and the immune response and provides valuable implications for understanding disease susceptibility and potential vaccine design.