IL-17 receptor A signaling on B cells promotes B-cell responses to TLR7 and enhances autoreactive germinal center B-cell development

Abstract

Abstract IL-17 receptor A (IL-17RA) expression has been identified in B cells and macrophages. There was low expression of IL-17RA on T cells. Surprisingly, we previously showed that IL-17RA signaling through NF-κB p65/p50 has a complex effect on both B and T-cell localization and germinal center (GC) architecture, making it difficult to dissect the specific effects of IL-17RA on B cells. To isolate the effects of the absence of IL-17RA specifically on B cells, we have generated a B-cell specific IL-17RA knockout (Il17rafloxed/floxed x Cd19.Cre) BXD2 mice. Flow cytometry confirmed the loss of IL-17RA expression in only CD19+ B cells but not CD3+ T cells or CD11b+ macrophages. There was a 2-fold decreased spontaneous GC B cell population in Il17rafloxed/floxed x Cd19.Cre BXD2, compared to Il17rawt/floxed x Cd19.Cre BXD2 mice. Interestingly, the abnormal activation and expansion of T-follicular helper cell (Tfh) phenotype in BXD2-Il17ra−/− mice was abrogated in Il17rafloxed/floxed x Cd19.Cre BXD2 mice. In the BXD2-Il17ra−/− mice, B cells were anergic to TLR7 stimulation and exhibited a strong stimulus-specific transcription repressor p50/p50 homodimer and a lower NF-κB phospho-p65. To demonstrate that this anergy is due specifically to IL-17RA on B cells but not other cells, we have identified that there was a lower TLR7-induced CD69 in vitro in Il17rafloxed/floxed x Cd19.Cre BXD2 mice. Taken together, our results suggest that IL-17RA signaling directly regulates B cell autoimmune phenotype in the BXD2 mice through an enhancement of B-cell responses stimulated by the NF-κB signaling pathway. A deficiency of such signal enforces B cell anergy and prevents autoreactive GC formation.