Expanded presentation of Lyme autoantigens and identification of a novel immunogenic CD4+ T cell epitope from Borrelia burgdorferiMCP4 in murine Lyme arthritis

Abstract

Abstract Lyme arthritis (LA), caused by Borrelia burgdorferi (Bb), is often accompanied by autoimmune T and B cell responses, but the mechanisms of infection-induced autoimmunity are unclear. We used an immunopeptidomics approach to identify potential Lyme autoantigens and immunogenic Bb antigens, which were validated by histology and testing of T cell reactivity. C57BL/6 (B6) mice, which develop mild inflammatory LA, and B6 Il10−/− (IL10 KO) mice, which develop severe, persistent LA, were infected with Bb for 4 or 16 weeks, and MHCII-bound peptides from inguinal and popliteal lymph nodes were identified by LC-MS/MS. Joint inflammation, fibrosis, and vascular remodeling were analyzed by H&E, Masson’s trichrome, and anti-CD31 immunohistochemistry, respectively. Six Bb peptides were identified by LC-MS/MS, of which one epitope from methyl-accepting chemotaxis protein 4 (MCP4) was an immunogenic CD4+ T cell antigen. Over 10,000 self peptides, particularly from proteins involved in cholesterol metabolism, tissue damage, and vascular inflammation were identified in infected mice. Presentation of peptides from previously identified human Lyme autoantigens apolipoprotein B-100, fibronectin, and type V collagen were expanded in infected mice, suggestive of epitope spreading. Consistent with immunopeptidomics data, joints showed increased inflammatory infiltrate, fibrosis and neovascularization in infected mice, compared with joints from uninfected mice. In conclusion, this immunopeptidomics approach revealed key insights into potential mechanisms of infection-induced autoimmunity in LA and indentified a novel immunogenic CD4+ T cell antigen from Bb MCP4. Supported by grants from NIAID (R21AI148982)