Phosphatase Wip1 controls antigen-independent B-cell development in a p53-dependent manner

Abstract

Wild-type p53-induced phosphatase 1 (Wip1), a phosphatase previously considered as an oncogene, has been implicated in the regulation of thymus homeostasis and neutrophil maturation. However, the role of Wip1 in B-cell development is unknown. We show that Wip1-deficient mice exhibit a significant reduction of B-cell numbers in the bone marrow, peripheral blood, and spleen. A reciprocal transplantation approach revealed a cell-intrinsic defect in early B-cell precursors caused by Wip1 deficiency. Further experiments revealed that Wip1 deficiency led to a sustained activation of p53 in B cells, which led to increased level of apoptosis in the pre-B-cell compartment. Notably, the impairment of B-cell development in Wip1-deficient mice was completely rescued by genetic ablation of p53, but not p21. Therefore, loss of Wip1 phosphatase induces a p53-dependent, but p21-independent, mechanism that impairs B-cell development by enhancing apoptosis in early B-cell precursors. Moreover, Wip1 deficiency exacerbated a decline in B-cell development caused by aging as evidenced in mice with aging and mouse models with serial competitive bone marrow transplantation, respectively. Our present data indicate that Wip1 plays a critical role in maintaining antigen-independent B-cell development in the bone marrow and preventing an aging-related decline in B-cell development.