Department of Medicine, Division of Endocrinology, Department of Microbiology and Immunology, The Fleischer Institute for Diabetes and Metabolism, Albert Einstein College of Medicine, Bronx, NY, USA.
Department of Medicine, Division of Endocrinology, Department of Microbiology and Immunology, The Fleischer Institute for Diabetes and Metabolism, Albert Einstein College of Medicine, Bronx, NY, USA.
J Autoimmun. 2020 Dec;115:102543. doi: 10.1016/j.jaut.2020.102543. Epub 2020 Sep 17.
Over the past four decades, the number of people with Type 1 Diabetes (T1D) has increased by 4% per year, making it an important public health challenge. Currently, no curative therapy exists for T1D and the only available treatment is insulin replacement. HLA-DQ8 has been shown to present antigenic islet peptides driving the activation of CD4 T-cells in T1D patients. Specifically, the insulin peptide InsB:9-23 activates self-reactive CD4 T-cells, causing pancreatic beta cell destruction. The aim of the current study was to identify retro-inverso-d-amino acid based peptides (RI-D-peptides) that can suppress T-cell activation by blocking the presentation of InsB:9-23 peptide within HLA-DQ8 pocket. We identified a RI-D-peptide (RI-EXT) that inhibited InsB:9-23 binding to recombinant HLA-DQ8 molecule, as well as its binding to DQ8 expressed on human B-cells. RI-EXT prevented T-cell activation in a cellular antigen presentation assay containing human DQ8 cells loaded with InsB:9-23 peptide and murine T-cells expressing a human T-cell receptor specific for the InsB:9-23-DQ8 complex. Moreover, RI-EXT blocked T-cell activation by InsB:9-23 in a humanized DQ8 mice both ex vivo and in vivo, as shown by decreased production of IL-2 and IFN-γ and reduced lymphocyte proliferation. Interestingly, RI-EXT also blocked lymphocyte activation and proliferation by InsB:9-23 in PBMCs isolated from recent onset DQ8-T1D patients. In summary, we discovered a RI-D-peptide that blocks InsB:9-23 binding to HLA-DQ8 and its presentation to T-cells in T1D. These findings set the stage for using our approach as a novel therapy for patients with T1D and potentially other autoimmune diseases.
在过去的四十年中,1 型糖尿病(T1D)患者的数量每年增加 4%,这是一个重要的公共卫生挑战。目前,T1D 尚无治愈疗法,唯一可用的治疗方法是胰岛素替代疗法。HLA-DQ8 已被证明可呈递抗原性胰岛肽,从而激活 T1D 患者的 CD4 T 细胞。具体而言,胰岛素肽 InsB:9-23 激活自身反应性 CD4 T 细胞,导致胰腺β细胞破坏。本研究的目的是鉴定基于反向非天然氨基酸的肽(RI-D-肽),通过阻断 InsB:9-23 肽在 HLA-DQ8 口袋内的呈递来抑制 T 细胞激活。我们鉴定出一种 RI-D-肽(RI-EXT),可抑制 InsB:9-23 与重组 HLA-DQ8 分子以及表达于人 B 细胞上的 DQ8 的结合。RI-EXT 可防止 InsB:9-23 结合到包含加载有 InsB:9-23 肽的人 DQ8 细胞和表达针对 InsB:9-23-DQ8 复合物的人 T 细胞受体的人类 DQ8 细胞的细胞抗原呈递测定中的 T 细胞激活。此外,RI-EXT 在人源化 DQ8 小鼠体内和体外均通过降低 IL-2 和 IFN-γ的产生以及淋巴细胞增殖来阻断 InsB:9-23 引起的 T 细胞激活。有趣的是,RI-EXT 还可阻断 InsB:9-23 在从近期发病的 DQ8-T1D 患者分离的 PBMC 中引起的淋巴细胞激活和增殖。总之,我们发现了一种 RI-D-肽,可阻断 InsB:9-23 与 HLA-DQ8 的结合及其在 T1D 中向 T 细胞的呈递。这些发现为我们的方法作为 T1D 患者和潜在的其他自身免疫性疾病患者的新型治疗方法奠定了基础。
