Apoptosis and its modulation during B lymphopoiesis in mouse bone marrow

Studies in normal, gene-deleted, transgenic and mutant mice have examined apoptotic cell death and its role in B lymphopoiesis in bone marrow. Apoptotic activity has been quantitated among phenotypically defined populations of precursor B cells using flow cytometry of apoptotic cells and an established model of B-cell development. In normal mice, the frequencies of apoptotic cells (apoptotic index) and accumulation of apoptotic cells during short-term culture (apoptotic rate) are maximal at around the pro/pre-B-cell transition and among immature B lymphocytes. The brief period between onset of apoptosis and clearance by macrophages (apoptotic transit time) is similar for most precursor B-cells. Apoptosis-modulating factors produce substantial changes in apoptotic activity among pro-B and pre-B cells, associated with altered expression of bcl-2 family proteins. Pro-B-cell apoptosis, normally extensive, is markedly suppressed in the absence of p53. Complete pro-B-cell abortion in RAG-2 deletion provides an assay for apoptotic fractions in other experimental systems. Pre-B-cell apoptosis is enhanced by deficiencies of interleukin (IL)-7, Abl protooncogene or colony-stimulating factor (CSF)-1 and overexpression of heat-stable antigen, and is inhibited by IL-7 and p190bcr/abl transgenes. CSF-1 and melatonin administration inhibit pre-B-cell apoptosis, probably via stromal cell stimulation. Such apoptotic modulation has implications for B-cell homeostasis, quality control, immunodeficiency and neoplasia.