The MerTK receptor tyrosine kinase is an important negative regulator of dendritic cell function and is required to prevent B cell autoimmunity in vivo. It is not currently known however, if any causal relationship exists between these two aspects of MerTK function. We sought to determine if dendritic cells from mice lacking MerTK (mertk−/− mice) have characteristics that may aid in the development of B cell autoimmunity. Specifically, we found that mertk−/− mice contain an elevated number of splenic dendritic cells, and this population contains an elevated proportion of cells secreting the critical B cell pro-survival factor, B cell activating factor (BAFF). Elevated numbers of BAFF-secreting cells were also detected among mertk−/− bone marrow-derived dendritic cell (BMDC) populations. This was observed in both resting BMDC, and BMDC stimulated with lipopolysaccharide (LPS) or treated with exogenous apoptotic cells. We also found that dendritic cells in general have a pro-survival effect on resting B cells in co-culture. However, despite containing more BAFF-secreting cells, mertk−/− BMDC were not superior to C57BL/6 or baff-deficient BMDC at promoting B cell survival. Furthermore, using decoy receptors, we show that dendritic cells may promote B cell survival and autoimmunity through a BAFF-and APRIL-independent mechanism
