Self-peptides bound to the type I diabetes associated class II MHC molecules HLA-DQ1 and HLA-DQ8.

Genetic susceptibility to several autoimmune disorders is associated with the expression of certain MHC class II alleles. Insight into the etiology of such diseases awaits the identification of the class II restriction elements and the possible pathogenic peptides. Towards these aims, self-peptides bound to HLA-DQ1 and HLA-DQ8, allotypes considered to be neutral and permissive respectively towards the development of insulin-dependent diabetes mellitus, are reported. These naturally processed peptides were isolated from immunoaffinity purified HLA-DQ molecules expressed in cultured B lymphocytes. The chromatographic profiles of the peptide repertoires are unique, whereas the size distributions exhibit general similarity to those reported for naturally processed self-peptides bound to HLA-DR. Twenty-eight individual peptides representing 10 nested sets were identified by combined Edman microsequencing and mass spectrometry. Peptide length varied from 13 to 74 amino acids. Source proteins included MHC molecules and other integral membrane proteins, as well as secretory, cytosolic and mitochondrial proteins. Promiscuous invariant chain peptides were identified among the self-peptides bound to HLA-DQ8. No dominant amino acid markers suggestive of particular enzymatic processing events were detected. Some structural features of DQ1 and DQ8 that may relate to the bound peptides are discussed. Peptide specificity was confirmed in binding assays with purified HLA-DQ and HLA-DR protein.