Distinct Roles of Phosphoinositide-3 Kinase and Phospholipase Cγ2 in B-Cell Receptor-Mediated Signal Transduction
ABSTRACT During B-cell receptor (BCR) signaling, phosphoinositide-3 kinase (PI3K) is thought to function upstream of phospholipase Cγ2 (PLCγ2). PLCγ2 deficiency specifically impedes transitional type 2 (T2) to follicular (FO) mature B-cell transition. Here, we demonstrate that PI3K deficiency specifically impaired T2-to-FO mature B-cell transition and marginal zone B-cell development. Furthermore, we investigated the functional relationship between PI3K and PLCγ2 using PI3K−/−, PLCγ2−/−, and PI3K−/− PLCγ2−/− B cells. Interestingly, PLCγ2 deficiency had no effect on BCR-mediated PI3K activation, whereas PI3K deficiency only partially blocked activation of PLCγ2. Moreover, whereas PI3K−/− PLCγ2−/− double deficiency did not affect hematopoiesis, it resulted in embryonic lethality. PI3K−/− PLCγ2−/− fetal liver cells transplanted into B-cell null JAK3−/− mice failed to restore development of peripheral B cells and failed to progress through early B-cell development at the pro-B- to pre-B-cell transition, a more severe phenotype than was observed with either PI3K or PLCγ2 single-deficiency B cells. Consistent with this finding, BCR signaling was more severely impaired in the absence of both PI3K and PLCγ2 genes than in the absence of either one alone. Taken together, these results demonstrate that whereas PI3K functions upstream of PLCγ2, activation of PLCγ2 can occur independently of PI3K and that PI3K and PLCγ2 also have distinct functions in BCR signal transduction.