Impaired transitional B cell maturation in Flt3-ligand deficient mice. (LYM6P.775)

Abstract

Abstract The production of naïve B cells in bone marrow (BM) is critical for maintaining a diverse peripheral B cell pool to fight infection and establish lifelong immunity. The generation of naïve B cells is impaired in Flt3-ligand (FL-/-) mice contributing to reductions in splenic B cells. The goal of this study was to determine the consequence of FL-deficiency on splenic B cell maturation. We found significant reductions in numbers of transitional (TS) and follicular (FO), but not marginal zone (MZ) B cells in FL-/- mice. Mixed BM chimeras revealed that the reduction in TS B cells was cell extrinsic, linking microenvironmental signals to TS B cell maturation. FL administration into FL-/- mice restored the deficiency in TS B cells that do not express Flt3, suggesting that a FL responsive component of the microenvironment is critical for TS maturation. Intracellular Ki67 revealed a significant decrease in the proliferative capacity of TS cells in FL-/- mice. Expression of a Bcl2 transgene did not rescue TS cells, uncoupling FL-deficiency to Bcl2-regulated survival pathways. BAFF-R expression and serum levels of BAFF were comparable in WT and FL-/- mice, supporting BAFF-independent regulation of TS cells. These observations support an integral indirect role for Flt3 signaling in regulation of TS B cell maturation in the spleen.