The Pax5 gene encoding the B-cell-specific activator protein (BSAP) is expressed within the haematopoietic system exclusively in the B-lymphoid lineage, where it is required in vivo for progression beyond the pro-B-cell stage. However, Pax5 is not essential for in vitro propagation of pro-B cells in the presence of interleukin-7 and stromal cells. Here we show that pro-B cells lacking Pax5 are also incapable of in vitro B-cell differentiation unless Pax5 expression is restored by retroviral transduction. Pax5 −/− pro-B cells are not restricted in their lineage fate, as stimulation with appropriate cytokines induces them to differentiate into functional macrophages, osteoclasts, dendritic cells, granulocytes and natural killer cells. As expected for a clonogenic haematopoietic progenitor with lymphomyeloid developmental potential, the Pax5 −/− pro-B cell expresses genes of different lineage-affiliated programmes, and restoration of Pax5 activity represses this lineage-promiscuous transcription. Pax5 therefore plays an essential role in B-lineage commitment by suppressing alternative lineage choices.All types of blood cell are generated from a pluripotent haematopoietic stem cell (HSC) through developmentally restricted progenitors which undergo lineage commitment and subsequent differentiation along a single pathway. The lymphoid lineages develop through a common lymphoid progenitor (CLP) which gives rise to natural killer, B and T cells 1 . Early B-cell development can be dissected into different stages according to the rearrangement status of the immunoglobulin heavy-chain (IgH) locus, the expression of stage-specific cell-surface markers and growth factor requirements 2,3 . The earliest B-lineage precursor cells carry the IgH locus still in germline configuration. D H -J H recombination is subsequently initiated in pre-BI cells 3 , which are also known as early pro-B cells (fraction B) 2 . These pro-B cells can be cultured in vitro on stromal cells in the presence of interleukin-7 (IL-7) and express the B-cell surface proteins 5, VpreB, Ig␣ and Ig (refs 3, 4). Completion of a functional V H -DJ H rearrangement results in the expression of the pre-B-cell receptor and subsequent differentiation to small pre-B cells, which are no longer responsive to pro-B-cell growth conditions 5 .The initiation of B-cell development critically depends on two transcription factors; the basic helix-loop-helix proteins encoded by the E2A gene and the early B-cell factor (EBF). In the absence of either protein, B-cell development is aborted at the earliest stage, before D H -J H rearrangement of the IgH gene 6-8 . Moreover, forced expression of E2A and EBF in haematopoietic precursor cells revealed that these regulators cooperatively induce the transcription of several B-lymphoid-specific genes 9,10 . Hence, loss-and gain-offunction experiments have implicated E2A and EBF in the control of B-lineage commitment.A third transcriptional regulator involved in early B-lymphopoiesis is the B-cell-specific activator protein (BSAP), which ...
CD4 + effector lymphocytes (Teff) are traditionally classified by the cytokines they produce. To determine the states that Teff actually adopt in frontline tissues in vivo , we applied single-cell transcriptome and chromatin analysis on colonic Teff cells, in germ-free or conventional mice, or after challenge with a range of phenotypically biasing microbes. Subsets were marked by expression of interferon-signature or myeloid-specific transcripts, but transcriptome or chromatin structure could not resolve discrete clusters fitting classic T H subsets. At baseline or at different times of infection, transcripts encoding cytokines or proteins commonly used as T H markers distributed in a polarized continuum, which was also functionally validated. Clones derived from single progenitors gave rise to both IFN-γ and IL17-producing cells. Most transcriptional variance was tied to the infecting agent, independent of the cytokines produced, and chromatin variance primarily reflected activity of AP1 and IRF transcription factor families, not the canonical subset master regulators T-bet, GATA3, RORγ.
During B-lymphocyte development in mouse fetal liver and bone marrow, a pre-B I cell stage is reached in which the cells express B-lineage-specific genes, such as CD19, Ig alpha and Igbeta and VpreB and lambda5, which encode the surrogate light (SL) chain. In these pre-B I cells both alleles of the immunoglobulin heavy (IgH) chain locus are D(H)J(H) rearranged. Transplantation of pre-B I cells from wild-type (e.g. C57Bl/6) mice in histocompatible RAG-deficient hosts leads to long-term reconstitution of some of the mature B-cell compartments and to the establishment of normal IgM levels, a third of the normal serum IgA levels, and IgG levels below the detection limit. Neither T-lineage nor myeloid cells of donor origin can be detected in the transplanted hosts, indicating that the pre-B I cells are committed to B-lineage differentiation. Consequently, the B-cell-reconstituted hosts respond to T-cell-independent antigens but not to T-cell-dependent antigens. Responses to T-cell-dependent antigens can be restored in the pre-B I-cell-transplanted, RAG-deficient hosts by the concomitant transplantation of mature CD4+ T cells. The transplanted wild-type pre-B I cells do not home back to the bone marrow and become undetectable shortly after transplantation. B-lymphocyte development in Pax-5-deficient mice becomes arrested at the transition of pre-B I to pre-B II cells i.e. at the stage when V(H) to D(H)J(H) rearrangements occur and when the pre-B-cell receptor, complete with muH chains and SL chains, is normally formed. T-lineage and myeloid cell development in these mice is normal. Pre-B I cells of Pax-5-deficient mice have a wild-type pre-B I-cell-like phenotype: while they do not express Pax-5-controlled CD19 gene, and express Ig alpha to a lesser extent, they express Igbeta, VpreB and lambda5, and proliferate normally in vitro on stromal cells in the presence of interleukin (IL)-7. Clones of these pre-B I cells carry characteristic D(H)J(H) rearrangements on both IgH chain alleles. However, removal of IL-7 from the tissue cultures, unlike wild-type pre-B I cells, does not induce B-cell differentiation to surface IgM-expressing B cells, but induces macrophage differentiation. This differentiation into macrophages requires either the presence of stromal cells or addition of macrophage colony-stimulating factor (M-CSF). Addition of M-CSF followed by granulocyte-macrophage colony-stimulating factor induces the differentiation to MHC class II-expressing, antigen-presenting dendritic cells. In vitro differentiation to granulocytes and osteoclasts can also be observed in the presence of the appropriate cytokines. Moreover, transplantation of Pax-5-deficient pre-B I clones into RAG-deficient hosts, while not allowing B-cell differentiation, leads to the full reconstitution of the thymus with all stages of CD4-CD8- and CD4+CD8+ thymocytes, to normal positive and negative selection of thymocytes in the thymus, and to the development of normal, reactive mature CD4+ and CD8+ T-cell compartments in the peripheral lymphoid tissue...
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