Lee Thomas, Sprouse Maran L, Banerjee Pinaki, Bettini Maria, Bettini Matthew L
Section of Diabetes and Endocrinology, Department of Pediatrics, Baylor College of Medicine, Texas Children's Hospital, Houston, TX 77030; and.
Center for Human Immunobiology, Baylor College of Medicine, Texas Children's Hospital, Houston, TX 77030.
J Immunol. 2017 Oct 1;199(7):2270-2278. doi: 10.4049/jimmunol.1700207. Epub 2017 Aug 23.
Type 1 diabetes is a T cell-mediated autoimmune disease that is characterized by Ag-specific targeting and destruction of insulin-producing β cells. Although multiple studies have characterized the pathogenic potential of β cell-specific T cells, we have limited mechanistic insight into self-reactive autoimmune T cell development and their escape from negative selection in the thymus. In this study, we demonstrate that ectopic expression of insulin epitope B:9-23 (InsB) by thymic APCs is insufficient to induce deletion of high- or low-affinity InsB-reactive CD4 T cells; however, we observe an increase in the proportion and number of thymic and peripheral Foxp3 regulatory T cells. In contrast, the MHC stable insulin mimetope (InsB R22E) efficiently deletes insulin-specific T cells and prevents escape of high-affinity thymocytes. Collectively, these results suggest that Ag dose and peptide-MHC complex stability can lead to multiple fates of insulin-reactive CD4 T cell development and autoimmune disease outcome.
1型糖尿病是一种由T细胞介导的自身免疫性疾病,其特征是抗原特异性靶向和破坏产生胰岛素的β细胞。尽管多项研究已对β细胞特异性T细胞的致病潜力进行了表征,但我们对自身反应性自身免疫T细胞的发育及其在胸腺中逃避阴性选择的机制了解有限。在本研究中,我们证明胸腺抗原呈递细胞异位表达胰岛素表位B:9-23(InsB)不足以诱导高亲和力或低亲和力InsB反应性CD4 T细胞的缺失;然而,我们观察到胸腺和外周Foxp3调节性T细胞的比例和数量增加。相比之下,MHC稳定的胰岛素模拟表位(InsB R22E)有效地删除了胰岛素特异性T细胞,并阻止了高亲和力胸腺细胞的逃逸。总体而言,这些结果表明抗原剂量和肽-MHC复合物稳定性可导致胰岛素反应性CD4 T细胞发育和自身免疫疾病结局的多种命运。
