β2-Glycoprotein I-specific T Cells Are Associated with Epitope Spread to Lupus-related Autoantibodies

Abstract

Systemic lupus erythematosus (SLE) is a prototypic model for B cell epitope spread in autoimmunity. Autoantibodies to numerous and molecularly distinct self-antigens emerge in a sequential manner over several years, leading to disease manifestations. Among the earliest autoantibodies to appear are those targeting the apoptotic cell-binding protein β2-glycoprotein I (β2GPI). Notably, mice immunized with β2GPI and LPS display a remarkably similar pattern of autoantibody emergence to that seen in human SLE. Here, we used this model to investigate whether epitope spread to SLE-related autoantibodies is associated with a unique or limited β2GPI-specific T cell response. We ask whether MHC class II haplotype and its associated T cell epitope restriction impact epitope spread to SLE-related autoantibodies. We found that β2GPI/LPS-immunized mice produced similar SLE-related autoantibody profiles regardless of their β2GPI T cell epitope specificity or MHC class II haplotype. Although β2GPI T cell epitope specificity was clearly determined by MHC class II haplotype, a number of different β2GPI T cell epitopes were associated with epitope spread to SLE-related autoantibodies. Notably, one β2GPI T cell epitope (peptide 23, NTGFYLNGADSAKCT) was also recognized by T cells from an HLA-DRB1*0403(+) autoimmune patient. These data suggest that the generation of a β2GPI-reactive T cell response is associated with epitope spread to SLE-related autoantibodies, independent of epitope specificity or MHC class II restriction. On the basis of these findings, we propose that factors enabling a β2GPI-reactive T cell response may predispose individuals to the development of SLE-related autoantibodies independent of their MHC class II haplotype.