Research Division, Barbara Davis Center for Diabetes, University of Colorado, Aurora, CO, United States.
Department of Immunology and Genomic Medicine, National Jewish Health, Denver, CO, United States.
Front Immunol. 2021 Apr 27;12:669986. doi: 10.3389/fimmu.2021.669986. eCollection 2021.
The T cell antigens driving autoimmune Type 1 Diabetes (T1D) have been pursued for more than three decades. When diabetogenic CD4 T cell clones and their relevant MHCII antigen presenting alleles were first identified in rodents and humans, the path to discovering the peptide epitopes within pancreatic beta cell proteins seemed straightforward. However, as experimental results accumulated, definitive data were often absent or controversial. Work within the last decade has helped to clear up some of the controversy by demonstrating that a number of the important MHCII presented epitopes are not encoded in the natural beta cell proteins, but in fact are fusions between peptide fragments derived from the same or different proteins. Recently, the mechanism for generating these MHCII diabetogenic chimeric epitopes has been attributed to a form of reverse proteolysis, called transpeptidation, a process that has been well-documented in the production of MHCI presented epitopes. In this mini-review we summarize these data and their implications for T1D and other autoimmune responses.
T 细胞抗原驱动自身免疫 1 型糖尿病(T1D)已有三十多年的研究历史。当致糖尿病 CD4 T 细胞克隆及其相关 MHCII 抗原呈递等位基因在啮齿动物和人类中首次被鉴定出来时,似乎可以很容易地发现胰岛β细胞蛋白中的肽表位。然而,随着实验结果的积累,明确的数据往往缺失或存在争议。过去十年的研究工作有助于澄清一些争议,表明许多重要的 MHCII 呈递表位不是由天然β细胞蛋白编码的,而是实际上是来自相同或不同蛋白质的肽片段之间的融合。最近,产生这些 MHCII 致糖尿病嵌合表位的机制归因于一种称为转肽的反向蛋白水解形式,这种过程在 MHCI 呈递表位的产生中已有详细记载。在这篇综述中,我们总结了这些数据及其对 T1D 和其他自身免疫反应的意义。
