Citrullination modulates MHC class II antigen processing and presentation by revealing cryptic epitopes

Abstract

Abstract Cryptic peptides, hidden from the immune system under physiologic conditions, are revealed by changes to MHC class II processing and can facilitate loss of tolerance to self-antigens. Rheumatoid arthritis (RA) is a chronic autoimmune disease characterized by immune responses to citrullinated self-antigens, in which arginine residues are converted to citrullines; however, the initiating events in RA remain poorly understood. We investigated the hypothesis that citrullination exposes cryptic epitopes by modifying protein structure and proteolysis in a manner sufficient to activate a previously ignorant repertoire of self-reactive T cells. We first utilized in vitro proteolytic mapping to define the effect of citrullination on four well-defined RA autoantigens-. We then used a natural antigen processing assay to elucidate the molecular mechanisms of citrullination-modulated processing and evaluated autoantigen-specific T cell responses against the unique peptide repertoire. We show that citrullination alters MHC class II processing and presentation of RA autoantigens, resulting in the destruction of dominant epitopes and the generation and presentation of cryptic epitopes, composed primarily of native peptide sequences. The citrullination-dependent repertoire stimulates T cells from RA patients with anti-citrullinated protein antibodies more robustly than the native repertoire and control T cells. The generation of this unique repertoire is achieved through altered protease affinity and protein destabilization, rather than direct presentation of citrulline-containing epitopes, suggesting a novel paradigm for the role of protein citrullination in the breach of immune tolerance in RA. Supported by a grant from the Rheumatology Research Foundation and by the Luke Evnin and Deann Wright Fellowship