BCR mediated c-Rel induction facilitates NF-κB2 and RelB expression (84.22)

Abstract B cell receptor (BCR) and B cell activating factor receptor (BAFF-R) signaling are critical for the generation of mature splenic B cells. BCR expressing Transitional type 1 (T1) cells migrate from the bone marrow to the spleen where they must successfully pass BCR mediated checkpoints to become Transitional type 2 (T2) cells and subsequently mature follicular B (FoB) cells. T1 and T2 cells are fundamentally different in their response to BCR or BAFF-R stimulation; T1 cells do not survive whereas T2 cells do when triggered through BCR or BAFF-R. Our results demonstrate that Bruton’s tyrosine kinase (Btk) plays a critical role in both BCR and BAFF-R mediated T2 and mature B cell survival. These results suggest that a potential mechanism that provides T2 cells with a survival advantage is their ability to sustain c-Rel expression in response to BCR engagement via mechanisms involving Btk. The increased c-Rel expression coincides precisely with the up-regulation of anti-apoptotic members of the Bcl-2 family as well as BAFF-R and its substrate p100 (NF-κB2). Thus, BCR indirectly enhances the survival function of BAFF-R in part through c-Rel. Consistent with a supporting role for BCR/c-Rel signaling in the activation of alternative NF-κB pathway, c-Rel-deficient B cells are impaired for BCR-induced expression of p100 as well as RelB

B Cell Receptor-Mediated Sustained c-Rel Activation Facilitates Late Transitional B Cell Survival through Control of B Cell Activating Factor Receptor and NF-κB2

Signaling from the BCR and B cell activating factor receptor (BAFF-R or BR3) differentially regulates apoptosis within early transitional (T1) and late transitional (T2; CD21(int)-T2) B cells during selection processes to generate mature B lymphocytes. However, molecular mechanisms underlying the differential sensitivity of transitional B cells to apoptosis remain unclear. In this study, we demonstrate that BCR signaling induced more long-term c-Rel activation in T2 and mature than in T1 B cells leading to increased expression of anti-apoptotic genes as well as prosurvival BAFF-R and its downstream substrate p100 (NF-κB2). Sustained c-Rel activation required de novo c-Rel gene transcription and translation via Btk-dependent mechanisms. Like T1 cells, mature B cells from Btk- and c-Rel-deficient mice also failed to activate these genes. These findings suggest that the gain of survival potential within transitional B cells is dependent on the ability to produce a long-term c-Rel response, which plays a critical role in T2 B cell survival and differentiation in vivo by inducing anti-apoptotic genes, BAFF-R and NF-κB2, an essential component for BAFF-R survival signaling. Thus, acquisition of resistance to apoptosis during transitional B cell maturation is achieved by integration of BCR and BAFF-R signals