Phenotypically and functionally distinct progenitors and developmental pathways have been proposed to exist for fetally derived B-1 and conventional B-2 cells. Although IL-7 appears to be the primary cytokine regulator of fetal and adult B lymphopoiesis in mice, considerable fetal B lymphopoiesis and postnatal B cells are sustained in the absence of IL-7; in humans, B-cell generation is suggested to be largely IL-7-independent, as severe combined immune-deficient patients with IL-7 deficiency appear to have normal B-cell numbers. However, the role of other cytokines in IL-7-independent B lymphopoiesis remains to be established. Although thymic stromal lymphopoietin (TSLP) has been proposed to be the main factor driving IL-7-independent B lymphopoiesis and to distinguish fetal from adult B-cell progenitor development in mice, recent studies failed to support a primary role of TSLP in IL-7-independent fetal B-cell development. However, the role of TSLP in IL-7-independent adult B lymphopoiesis and in particular in regulation of B-1 cells remains to be established. Here we demonstrate that, rather than TSLP, IL-7 and FLT3 ligand are combined responsible for all B-cell generation in mice, including recently identified B-1-specified cell progenitors. Thus, the same IL-7-and FLT3 ligand-mediated signaling regulates alternative pathways of fetal and adult B-1 and B-2 lymphopoiesis.
IntroductionHuman immunodeficiencies have uncovered the key role of cytokine signaling pathways in T lymphocyte development, facilitating development of cell replacement and gene therapies. 1,2 In contrast, little is known about the cytokine pathways that might be perturbed in immunodeficiencies with a B-cell phenotype.In mice, fetal and adult B-cell development has been suggested to be regulated by overlapping yet largely distinct cytokine ligands and receptors. [3][4][5][6][7][8][9] Specifically, whereas conventional B-2 B lymphopoiesis in the adult bone marrow (BM) is lost in the absence of only interleukin-7 (IL-7), fetal and early postnatal B lymphopoiesis, in particular B-1 B-cell genesis, seems to be largely driven by IL-7-independent mechanisms. 10-12 Importantly, such IL-7-independent B lymphopoiesis is sufficient to sustain a pool of peripheral B cells and normal immunoglobulin levels through life. 3,13 Notably, also human B-cell development appears to be largely or entirely IL-7-independent, as X-linked severe combined immunodeficiency caused by a loss of function mutation in the IL-2 receptor gamma chain (IL-2Rg), as well as IL-7 receptor alpha chain (IL-7R␣) deficiency, are accompanied by severely defective T lymphopoiesis but apparently normal B-cell numbers. 14-16 Thus, it could have considerable clinical implications to establish which alternative cytokines might be involved in regulating IL-7-independent B lymphopoiesis.Several previous lines of evidence strongly implicated thymic stromal lymphopoietin (TSLP) as a primary regulator of IL-7-independent fetal B lymphopoiesis. 8,9 TSLP shares with IL-7 the IL-7R␣ as a ligand-b...
