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Query: UNIPROT:P10721 (c-kit)
 6,575 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Multiple cytokines can synergize to stimulate the in vitro proliferation and exclusive myeloid differentiation of multipotent bone marrow progenitor cells. The ligand for c-kit (stem cell factor [SCF]) plays a key role in stimulating myeloid and erythroid cell production of primitive hematopoietic progenitors. SCF in combination with interleukin-7 (IL-7) can also stimulate the combined myeloid and B-cell differentiation of uncommitted hematopoietic progenitor cells as well as the growth of early B-cell progenitor cells, although the involvement of c-kit in early B lymphopoiesis remains controversial. In the present study, the flt3-ligand (FL), which, in combination with other cytokines, has overlapping activities with SCF on myeloid cell production from uncommitted progenitors, was investigated for its ability to induce selective stroma-independent B-cell commitment from uncommitted Lin-Sca-1+ bone marrow progenitor cells. IL-7 alone did not induce any clonal growth and FL alone gave rise to a few clusters (< 50 cells) but no colonies (> 50 cells), whereas the combined stimulation with FL and IL-7 resulted in clonal growth of 10% of Lin-Sca-1+ bone marrow cells. After 12 days of incubation of Lin-Sca-1+ cells in FL + IL-7, an almost 400-fold increase in cell production was observed. Phenotyping showed that greater than 99% of the cells produced were of the B-cell lineage, in that they expressed B220, but not cell surface markers specific for myeloid, erythroid, or T-cell lineages. Furthermore, the cells did not express cytoplasmic mu-heavy chain (cmu) or surface IgM, but were positive for CD24 (heat stable antigen [HSA]) and CD43 (leukosialin), suggesting that the cells produced were blocked at a late pro-B-cell stage. Interestingly, although all FL + IL-7-responsive Lin-Sca-1+ progenitor cells and the resulting pro-B cells expressed c-kit, FL + IL-7 was much more potent (62-fold) than SCF + IL-7 in stimulating production of cells of the B-cell lineage. In addition, whereas FL + IL-7 selectively stimulated the production of pro-B cells, SCF + IL-7 predominantly stimulated the production of mature granulocytes. Replating studies showed that FL + IL-7-responsive Lin-Sca-1+ progenitors were not committed to the B-cell lineage, because after 2 days of incubation in FL + IL-7, 80% of the progenitors retained a myeloid potential. As much as 27% of the FL + IL-7-responsive progenitors remained uncommitted after 7 days of incubation, but all had committed to the B-cell lineage after 10 days of incubation in FL + IL-7. These results show that FL much more potently and selectively than SCF synergizes with IL-7 to enhance B-cell commitment and development from uncommitted progenitor cells.
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PMID:Combined signaling through interleukin-7 receptors and flt3 but not c-kit potently and selectively promotes B-cell commitment and differentiation from uncommitted murine bone marrow progenitor cells. 869 43

While early thymic T cell precursor populations and their maturational sequence have been recently identified, the signals driving differentiation are unknown. While cytokines may play an integral role in T cell development, various mouse models rendered genetically deficient for specific cytokines do not display abnormalities in T cell development. Recently, we have generated IL-7 -/- mice and reported that IL-7 plays a unique and nonredundant role in lymphopoiesis. These mice displayed a 10- to 20-fold reduction in the total number of T and B cells. Here, we show that IL-7 -/- mice display a sharp reduction in both the frequency and absolute number of adult thymic gamma delta T cells while retaining normal frequencies of alpha beta T cells. This defect in gamma delta T cell production extends to peripheral organs as IL-7 -/- mice are essentially devoid of splenic and intestinal intraepithelial gamma delta T cells. This aberrant phenotype was traced back to impaired fetal gamma delta T cell maturation. In the absence of IL-7, differentiation of immature V gamma 3 low-CD24+ fetal T cells to mature V gamma 3 high CD24- cells is inhibited. In contrast, NK cell maturation appears to be only mildly affected in the absence of IL-7. To further clarify the role of IL-7 in thymic development, detailed analysis of CD3-4-8- thymic precursors was performed. A partial inhibition in the differentiation of CD44+25+ pro-T cells into CD44-25+ pre-T cells was observed. Unexpectedly, the lack of IL-7 resulted in decreased expression of CD117 (c-kit) on both CD4 low and pro-T cells, suggesting that IL-7 may influence the expression of other cytokine receptors involved in early hemopoietic development. Together, these data clarify the developmental abnormalities during T cell development due to the absence of IL-7.
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PMID:Inhibition of gamma delta T cell development and early thymocyte maturation in IL-7 -/- mice. 880 34

Human bone marrow stromal cell antigen 1 (BST-1) was identified as a glycosylphosphatidyl-inositol-anchored ectoenzyme expressed on bone marrow stromal or synovial cell lines and having the ability to facilitate pre-B cell line growth. The analysis of the expression of mouse BST-1/BP-3 on the surface of lymphoid cells in the bone marrow and thymus revealed that it was very transiently expressed on both B and T cell progenitors undergoing gene rearrangement of the antigen receptor. Among CD45R+ CD43+ B cell progenitors in the bone marrow, BST-1 expression appeared on the CD24 (heat stable antigen)+, CD19+ or CD117 (c-kit)+ population. In the thymus, BST-1 was expressed on CD4-CD8-CD3- [triple negative (TN)] CD90 (Thy-1)+ cells. In TN thymocytes, the majority of CD25+ cells and CD44(10)/- cells expressed BST-1. In fetuses, BST-1+ cells appeared in the thymus and liver at day 14 and 16 of gestation respectively. The expression level of BST-1 by fetal thymus was maximal and > 60% of thymocytes were positive for BST-1 at day 15 or 16 and the proportion then gradually decreased during development. Among day 15 fetal thymocytes, BST-1 was negative on the CD44+ CD25- fraction, very slightly positive on the CD44+ CD25+ fraction, and strongly positive on the CD44(10)/- CD25+ and CD44-CD25- fractions. These results showed that murine BST-1 is a useful marker for lymphoid progenitor cells initiating gene rearrangement of their antigen receptors.
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PMID:Stage-specific expression of mouse BST-1/BP-3 on the early B and T cell progenitors prior to gene rearrangement of antigen receptor. 892 17

We have recently shown that Flt3 ligand administration dramatically increases dendritic cell (DC) numbers in various mouse tissues. This has enabled the identification of distinct mature DC subpopulations. These have been designated: population C (CD11c(bright) CD11b(bright)), D (CD11c(bright) CD11b(dull)), and E (CD11c(bright) CD11b(negative)) This report demonstrates that the mature DC subsets (C, D, and E) from Flt3 ligand-treated mice differ with respect to phenotype, geographic localization, and function. The myeloid Ags CD11b, F4/80, and Ly-6C are predominantly expressed by population C, but not D or E. In addition, a subset of population C-type DC expresses 33D1 and CD4. In contrast, DC within population D and E selectively express the lymphoid-related DC markers CD8alpha, DEC 205, CD1d, as well as CD23, elevated levels of CD117 (c-kit), CD24 (HSA), CD13, and CD54. Immunohistology indicates that the different DC subsets reside in distinct microenvironments, with populations D and E residing in the T cell areas of the white pulp, while DC within population C localize in the marginal zones. These DC subpopulations showed different capacities to phagocytose FITC-zymosan and to secrete IL-12 upon stimulation with Staphylococcus aureus cowan I strain + IFN-gamma + granulocyte-macrophage-CSF. Population C-type DC were more phagocytic but secreted little inducible IL-12 while population D- and E-type DC showed poor phagocytic capacity and secreted considerably higher levels of IL-12. These results underscore the importance of viewing DC development in vivo, as an interplay between distinct lineages and a maturational dependence on specific microenvironmental signals.
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PMID:Developmental pathways of dendritic cells in vivo: distinct function, phenotype, and localization of dendritic cell subsets in FLT3 ligand-treated mice. 927 10

Flt3 ligand (FL) is an important cytokine that affects the proliferation of hematopoietic stem cells and multipotent progenitors. In addition, FL seems to be strongly involved in the differentiation of B cells and macrophages. These two cell types are derived from separate hematopoietic lineages and display distinct surface markers, for instance, the pan-B cell marker B220 (CD45R) and the myelo/monocytic marker Mac-1 (CD11b), respectively. However, reports during several years have shown that some lineage markers can be coexpressed on factor-dependent progenitor cells as well as on some malignant leukemic clones. In the present study, we describe the ability of FL to induce the development and growth of Mac-1+ progenitor cells coexpressing B220 from c-kit+Lin- mouse bone marrow cells. FL was shown to be necessary but not sufficient for the development of Mac-1(-)B220+ cells, because certain other cytokines, in particular IL-6, had to be added to the cultures. An extended characterization of the cells revealed coexpression of other early B-cell markers, i.e., CD24, CD43, and c-kit. They expressed transcripts for c-fms, the receptor for macrophage-colony stimulating factor (M-CSF), and were able to develop into macrophages at high numbers, but not to other myeloid cells. By RT-PCR analysis we could also demonstrate expression of the B-cell associated genes Pax-5, Rag-2, and TdT. In contrast, Mac-1(+)B220- cells from the same cultures did not express any of the B-cell genes, and retained a broader myeloid differentiation capacity. Despite these B-cell associated features, Mac-1(+)B220- cells could not be induced towards B-cell progenitors. Our data suggest that FL triggers the activation of some B-cell associated genes in progenitor cells predestined to macrophage differentiation.
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PMID:Flt3 ligand induces the outgrowth of Mac-1+B220+ mouse bone marrow progenitor cells restricted to macrophage differentiation that coexpress early B cell-associated genes. 1056 Sep 12

Most lineage marker-negative (Lin-)TdT+ cells from murine marrow lack CD34 but display c-kit at low density as well as IL-7Ralpha and Flk-2/Flt-3 receptors. Single cells with these characteristics generated CD45RA+CD19- as well as CD19+ lymphocytes in culture. CD45RA+CD19- marrow cells were resolved into three nonoverlapping subsets. One subset, lacking DX5 and Ly-6C antigens, yielded CD19+ cells in culture. Further analysis demonstrated CD24 on most Lin-TdT+ cells and all CD45R+CD19-DX5-Ly-6C- cells. Mac-1/CD11b was absent from these two subsets of B lineage precursors, while IL-7Ralpha was retained during subsequent differentiation to a CD19+ and stromal cell-independent stage. These findings contrast with previous descriptions of B lymphocyte precursors and suggest a sequence of early differentiation events.
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PMID:Functional assessment of precursors from murine bone marrow suggests a sequence of early B lineage differentiation events. 1075 20

A lymphoid-committed progenitor population was isolated from mouse bone marrow based on the cell surface phenotype Thy-1.1(neg)Sca-1(pos)c-Kit(low)Lin(neg). These cells were CD43(pos)CD24(pos) on isolation and proliferated in response to the cytokine combination of steel factor, IL-7, and Flt3 ligand. Lymphoid-committed progenitors could be segregated into more primitive and more differentiated subsets based on expression of AA4.1. The more differentiated subset generated only B lymphoid cells in 92% of total colonies assayed, lacked T lineage potential, and expressed Pax5. These studies have therefore defined and isolated a B lymphoid-committed progenitor population at a developmental stage corresponding to the initial expression of CD45R.
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PMID:Phenotypic distinction and functional characterization of pro-B cells in adult mouse bone marrow. 1120 54

Plasmacytoid dendritic cells (pDCs) competent to make type I interferon were rigorously defined as a Ly-6C(+) and CD11c(Lo) subset of the B220(+)CD19(-) CD43(+)CD24(Lo) bone marrow (BM) Fraction A. Otherwise similar Ly6C(-) cells expressed the natural killer (NK) markers DX5 and NK1.1. pDCs represented a stable, discrete, and long-lived population. Stem cells and early lymphoid progenitors (ELPs), but not prolymphocytes, were effective precursors of pDCs, and their differentiation was blocked by ligation of Notch receptors. Furthermore, pDCs were present in the BM of RAG1(-/-), CD127/IL-7Ra(-/-), and Pax5(-/-) mice. pDCs in RAG1/GFP knock-in mice could be subdivided, and immunoglobulin D(H)-J(H) rearrangements, as well as transcripts for the B-lineage-related genes Pax5, mb1/CD79a, ebf, and Bcl11a, were identified only in the green fluorescent protein-positive (GFP(+)) pDC1 subset. All pDCs expressed terminal deoxynucleotidyl transferase (TdT), the ETS transcription factor Spi-B, the nuclear factor-kappaB transcription factor RelB, toll-like receptor 9 (TLR9), and interferon consensus sequence binding protein (ICSBP)/interferon regulatory factor 8 (IRF-8) transcripts; lacked CD16 and granulocyte colony-stimulating factor receptor (G-CSFR); and were uniformly interleukin-7 receptor alpha (IL-7Ralpha(-)) AA4.1(Lo), CD27(-), Flk-2(Lo), c-Kit(-), DX-5(-), and CD11b(-), while CD4 and CD8alpha were variable. GFP(+) pDC1 subset was less potent than GFP(-) pDC2s in T allostimulation and production of tumor necrosis factor alpha (TNFalpha), interferon alpha (IFNalpha), and interleukin-6 (IL-6), while only pDC2s made IFNgamma and IL-12 p70. Thus, 2 functionally specialized subsets of pDCs arise in bone marrow from progenitors that diverge from B, T, and NK lineages at an early stage.
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PMID:Derivation of 2 categories of plasmacytoid dendritic cells in murine bone marrow. 1572 31

Recently, the cancer stem cell hypothesis has gained significant recognition as the descriptor of tumorigenesis. Although previous studies relied on transplanting human or rat tumor cells into immunecompromised mice, our study used the Hoechst 33342 dye-based side population (SP) technique to isolate and transplant stem cell-like cancer cells (SCLCCs) from the 4T1 and NXS2 murine carcinoma cell lines into the immune-competent microenvironment of syngeneic mice. 4T1 cells displayed an SP of 2% with a Sca-1(high)c-Kit(-)CD45(-) phenotype, whereas NXS2 cells contained an SP of 0.2% with a Sca-1(high)CD24(high)c-Kit(-)CD45(-)GD (high)(2) phenotype. Reverse transcription-polymerase chain reaction (RT-PCR) further revealed up-regulation in SP cells of ABCG2, Sca-1, Wnt-1, and TGF-beta2. Additionally, 4T1 and NXS2 SP cells exhibited increased resistance to chemotherapy, and 4T1 SP cells also showed an increased ability to efflux doxorubicin, which correlated with a selective increase in the percentage of SP cells found in the tumors of doxorubicin-treated mice. Most importantly, SP cells showed a markedly higher repopulation and tumorigenic potential in vivo, which correlated with an increased number of cells in the SP compartment of SP-derived tumors. Taken together, these results show that we successfully characterized SCLCCs from 2 murine carcinoma cell lines in the immune-competent microenvironment of syngeneic mice.
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PMID:Characterization of stem cell-like cancer cells in immune-competent mice. 1691 22

Stem cells are self-renewing multipotent progenitors with the broadest developmental potential in a given tissue at a given time. Normal stem cells in the adult organism are responsible for renewal and repair of aged or damaged tissue. Adult stem cells are present in virtually all tissues and during most stages of development. In this review, we introduce the reader to the basic information about the field. We describe selected stem cell isolation techniques and stem cell markers for various stem cell populations. These include makers for endothelial progenitor cells (CD146/MCAM/MUC18/S-endo-1, CD34, CD133/prominin, Tie-2, Flk1/KD/VEGFR2), hematopoietic stem cells (CD34, CD117/c-Kit, Sca1), mesenchymal stem cells (CD146/MCAM/MUC18/S-endo-1, STRO-1, Thy-1), neural stem cells (CD133/prominin, nestin, NCAM), mammary stem cells (CD24, CD29, Sca1), and intestinal stem cells (NCAM, CD34, Thy-1, CD117/c-Kit, Flt-3). Separate section provides a concise summary of recent clinical trials involving stem cells directed towards improvement of a damaged myocardium. In the last part of the review, we reflect on the field and on future developments.
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PMID:Adult stem cells and their trans-differentiation potential--perspectives and therapeutic applications. 1862 66


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