Helper T cells are required for the development of IgM memory cells, but not IgM bone marrow plasmablasts

Abstract

Abstract The processes and factors that regulate B cell fate decisions during IgM memory cell development and differentiation are unknown, and may differ from those required by canonical memory cells. In our experimental model of Ehrlichia muris infection, we have characterized two long-lived B cell populations: IgM memory cells, and IgM bone marrow (BM) antibody secreting cells (ASCs). The IgM+ memory B cells are required for recall IgG responses, while the BM ASCs produce antigen-specific IgM responsible for maintaining long-term immunity. Both populations are derived from an early AID-expressing CD4 T cell-independent splenic CD11c+ plasmablast population. Because abundant T follicular helper cells are generated in the spleen during early infection, we investigated whether T cell help regulates B cell fate. Infection of MHC class II-deficient mice revealed that the IgM+ memory B cells required CD4+ T cell help, while the IgM+ BM ASCs did not. Moreover, IgM memory cell transfer studies indicated that T cell help was required for the generation of IgM+ memory cells, but not for the generation of BM ASCs. On the basis of these observations, we propose that T cells drive B cell fate: developing spleen plasmablasts that receive T cell signals mature to become IgM memory cells, while cells that do not receive these signals follow a default pathway to become long-lived IgM BM ASCs.