Primary human and rat β-cells release the intracellular autoantigens GAD65, IA-2, and proinsulin in exosomes together with cytokine-induced enhancers of immunity

C Cianciaruso, EA Phelps, M Pasquier, R Hamelin… - Diabetes, 2017 - Am Diabetes Assoc
C Cianciaruso, EA Phelps, M Pasquier, R Hamelin, D Demurtas, M Alibashe Ahmed…
Diabetes, 2017Am Diabetes Assoc
The target autoantigens in several organ-specific autoimmune diseases, including type 1
diabetes (T1D), are intracellular membrane proteins, whose initial encounter with the
immune system is poorly understood. Here we propose a new model for how these proteins
can initiate autoimmunity. We found that rat and human pancreatic islets release the
intracellular β-cell autoantigens in human T1D, GAD65, IA-2, and proinsulin in exosomes,
which are taken up by and activate dendritic cells. Accordingly, the anchoring of GAD65 to …
The target autoantigens in several organ-specific autoimmune diseases, including type 1 diabetes (T1D), are intracellular membrane proteins, whose initial encounter with the immune system is poorly understood. Here we propose a new model for how these proteins can initiate autoimmunity. We found that rat and human pancreatic islets release the intracellular β-cell autoantigens in human T1D, GAD65, IA-2, and proinsulin in exosomes, which are taken up by and activate dendritic cells. Accordingly, the anchoring of GAD65 to exosome-mimetic liposomes strongly boosted antigen presentation and T-cell activation in the context of the human T1D susceptibility haplotype HLA-DR4. Cytokine-induced endoplasmic reticulum stress enhanced exosome secretion by β-cells; induced exosomal release of the immunostimulatory chaperones calreticulin, Gp96, and ORP150; and increased exosomal stimulation of antigen-presenting cells. We propose that stress-induced exosomal release of intracellular autoantigens and immunostimulatory chaperones may play a role in the initiation of autoimmune responses in T1D.
Am Diabetes Assoc