自身/肿瘤抗原的免疫原性差源于肽-MHC-I的不稳定性，且与耐受性无关。

Poor immunogenicity of a self/tumor antigen derives from peptide-MHC-I instability and is independent of tolerance.

作者信息

Yu Zhiya, Theoret Marc R, Touloukian Christopher E, Surman Deborah R, Garman Scott C, Feigenbaum Lionel, Baxter Tiffany K, Baker Brian M, Restifo Nicholas P

机构信息

Surgery Branch, National Cancer Institute/NIH, Building 10, Bethesda, MD 20892, USA.

出版信息

J Clin Invest. 2004 Aug;114(4):551-9. doi: 10.1172/JCI21695.

DOI:10.1172/JCI21695

PMID:15314692

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC503773/

Abstract

Understanding the mechanisms underlying the poor immunogenicity of human self/tumor antigens is challenging because of experimental limitations in humans. Here, we developed a human-mouse chimeric model that allows us to investigate the roles of the frequency and self-reactivity of antigen-specific T cells in determination of the immunogenicity of an epitope (amino acids 209-217) derived from a human melanoma antigen, gp100. In these transgenic mice, CD8+ T cells express the variable regions of a human T cell receptor (hTCR) specific for an HLA-A0201-restricted gp100(209-217). Immunization of hTCR-transgenic mice with gp100(209-217) peptide elicited minimal T cell responses, even in mice in which the epitope was knocked out. Conversely, a modified epitope, gp100(209-217(2M)), was significantly more immunogenic. Both biological and physical assays revealed a fast rate of dissociation of the native peptide from the HLA-A0201 molecule and a considerably slower rate of dissociation of the modified peptide. In vivo, the time allowed for dissociation of peptide-MHC complexes on APCs prior to their exposure to T cells significantly affected the induction of immune responses. These findings indicate that the poor immunogenicity of some self/tumor antigens is due to the instability of the peptide-MHC complex rather than to the continual deletion or tolerization of self-reactive T cells.

摘要

由于人体实验存在局限性，了解人类自身/肿瘤抗原免疫原性较差的潜在机制具有挑战性。在此，我们构建了一种人鼠嵌合模型，该模型使我们能够研究抗原特异性T细胞的频率和自身反应性在决定源自人类黑色素瘤抗原gp100的一个表位（氨基酸209 - 217）免疫原性方面的作用。在这些转基因小鼠中，CD8 + T细胞表达对HLA - A0201限制性gp100(209 - 217)具有特异性的人T细胞受体（hTCR）的可变区。用gp100(209 - 217)肽免疫hTCR转基因小鼠引发的T细胞反应极小，即使在该表位被敲除的小鼠中也是如此。相反，一种修饰后的表位gp100(209 - 217(2M))的免疫原性显著更强。生物学和物理分析均显示天然肽从HLA - A0201分子上解离的速度很快，而修饰后的肽解离速度则慢得多。在体内，抗原呈递细胞（APC）上的肽 - MHC复合物在暴露于T细胞之前解离所需的时间显著影响免疫反应的诱导。这些发现表明，某些自身/肿瘤抗原免疫原性较差是由于肽 - MHC复合物的不稳定性，而非自身反应性T细胞的持续缺失或耐受。

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