UNIPROT:P10721 - FACTA Search

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

Thrombopoietin (Tpo) is a primary regulator of megakaryocyte and platelet production. However, studies in c-mpl-deficient mice suggest that Tpo might also play an important role in early hemopoiesis. Here, the direct ability of Tpo to stimulate stroma-independent growth, multilineage differentiation, and progenitor cell expansion from single primitive CD34+ CD38- human bone marrow cells was investigated. Tpo alone stimulated limited clonal growth, but synergized with c-kit ligand (KL), flt3 ligand (FL), or IL-3 to potently enhance clonogenic growth. Whereas KL and FL in combination stimulated the clonal growth of only 3% of CD34+ CD38- cells, 40% of CD34+ CD38- cells were recruited by KL+FL+Tpo, demonstrating that Tpo promotes the growth of a high fraction of CD34+ CD38- progenitor cells. Additional cytokines (IL-3, IL-6, and erythropoietin (Epo)) did not significantly enhance clonal growth above that observed in response to KL+FL+Tpo. In contrast, Tpo enhanced clonogenic growth in response to KL+FL+IL-3+IL-6+Epo by as much as 80%, implicating a key role for this cytokine in early hemopoiesis. Importantly, we also demonstrate that the majority of Tpo-recruited CD34+ CD38- progenitor cells have a multilineage differentiation potential, and that Tpo promotes prolonged expansion of multipotent progenitors. Specifically, whereas progenitor cells were reduced in cultures containing only KL+FL, addition of Tpo resulted in 40-fold expansion of multipotent progenitors following a 14-day incubation. Finally, we identified inhibitors of Tpo-induced progenitor cell growth, in that TGF-beta as well as TNF-alpha almost completely abrogated the growth of CD34+ CD38- progenitor cells in response to Tpo alone as well as KL+FL+Tpo.
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PMID:Thrombopoietin directly and potently stimulates multilineage growth and progenitor cell expansion from primitive (CD34+ CD38-) human bone marrow progenitor cells: distinct and key interactions with the ligands for c-kit and flt3, and inhibitory effects of TGF-beta and TNF-alpha. 916 33

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

CD34(+)Thy-1(+)Lin- cells are enriched for primitive hematopoietic progenitor cells (PHP), as defined by the cobblestone area-forming cell (CAFC) assay, and for bone marrow (BM) repopulating hematopoietic stem cells (HSC), as defined by the in vivo SCID-hu bone assay. We evaluated the effects of different cytokine combinations on BM-derived PKH26-labeled CD34(+)Thy-1(+)Lin- cells in 6-day stroma-free cultures. Nearly all (>95%) of the CD34(+)Thy-1(+)Lin- cells divided by day 6 when cultured in thrombopoietin (TPO), c-kit ligand (KL), and flk2/flt3 ligand (FL). The resulting CD34(hi) PKHlo (postdivision) cell population retained a high CAFC frequency, a mean 3.2-fold increase of CAFC numbers, as well as a capacity for in vivo marrow repopulation similar to freshly isolated CD34(+)Thy-1(+)Lin- cells. Initial cell division of the majority of cells occurred between day 2 and day 4, with minimal loss of CD34 and Thy-1 expression. In contrast, cultures containing interleukin-3 (IL-3), IL-6, and leukemia inhibitory factor contained a mean of 75% of undivided cells at day 6. These CD34(hi) PKHhi cells retained a high frequency of CAFC, whereas the small population of CD34(hi) PKHlo postdivision cells contained a decreased frequency of CAFC. These data suggest that use of a combination of TPO, KL, and FL for short-term culture of CD34(+)Thy-1(+)Lin- cells increases the number of postdivision PHP, measured as CAFC, while preserving the capacity for in vivo engraftment.
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PMID:Thrombopoietin, kit ligand, and flk2/flt3 ligand together induce increased numbers of primitive hematopoietic progenitors from human CD34+Thy-1+Lin- cells with preserved ability to engraft SCID-hu bone. 945 50

We compared the effect of human flt3 ligand (FL) and stem cell factor (SCF) on cord blood (CB)-derived CD34+ cells expressing different levels of flt3 or c-kit tyrosine kinase (TK) receptor in clonal cell culture. The c-kit receptor was expressed by 58.5+/-16.7% of CB CD34+ cells (n=19), in which c-kit(high), c-kit(low) and c-kit cell populations could be identified. In contrast, the flt3 receptor (FR) was weakly expressed on 58.6+/-8.3% (n=9) of CB CD34+ cells. FL+erythropoietin (Epo) failed to support erythroid burst (BFU-E) formation by any subpopulation of CD34+ cells. However, SCF + Epo supported BFU-E and erythrocyte-containing mixed (CFU-mix) colony formation from all subpopulations. Interestingly, FL markedly augmented CFU-mix colony formation supported by interleukin (IL)-3 + Epo when CD34+c-kit(low) or CD34+FR+ cells were used as the target. On the other hand, SCF significantly enhanced CFU-mix colony formation supported by IL-3 + Epo when CD34+c-kit(high) or low and CD34+FR+ cells were used. The replating potential of CFU-mix supported by IL-3 + Epo+ FL was greater when CD34+c-kit(low) or CD34+FR+ cells were used. When the CD34+c-kit(low) cells were used, the number of lineages expressed in secondary cultures of CFU-mix colonies derived from primary cultures containing IL-3 + Epo + FL or SCF was significantly larger than when the primary cultures contained IL-3 + Epo. Furthermore, the number of long-term culture-initiating cells found in CD34+FR+ cells was larger than that in FR cells. CB-derived CD34+c-kit(low) cells represent a less mature population than c-kit(high) cells, as reported previously. Therefore, these results indicate that both FL and SCF can act on primitive multipotential progenitors. However, it is still uncertain whether CB-derived CD34+FR+ cells are less mature than CD34+FR- cells.
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PMID:Haematopoietic action of flt3 ligand on cord blood-derived CD34-positive cells expressing different levels of flt3 or c-kit tyrosine kinase receptor: comparison with stem cell factor. 965 59

Flt3 ligand (FL) is a member of a small family of growth factors that stimulate the proliferation of hematopoietic cells by binding to and activating distinct tyrosine kinase receptors. Other members of this family include M-CSF and the c-kit ligand. Expression of the Flt3 receptor is primarily restricted to the most primitive hematopoietic progenitor cells, and FL stimulates the proliferation in vitro and the expansion and mobilization in vivo of stem and progenitor cells. FL as a single factor has little proliferative activity on these stem and progenitor cells, but it synergizes with a wide range of other colony-stimulating factors and interleukins to stimulate proliferation of these cells. FL is also an effective agent for mobilizing stem and progenitor cells to peripheral blood. Recent data demonstrating anti-tumor activity of FL suggest that this protein plays a major role in activating the immune system via its ability to stimulate the production of both dendritic and natural killer cells. These biologic activities of FL may potentially prove quite useful in a number of clinical settings.
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PMID:Biologic effects and potential clinical applications of Flt3 ligand. 966 59

The ability to generate dendritic cells (DCs) in sizeable numbers has enormous implications for the development of clinically-effective antigen presentation procedures for cancer immunotherapy. We evaluated the generation of immunostimulatory DCs from peripheral blood CD34+ cells collected from healthy donors. CD34+ cells purified from leukapheresis product were seeded at 1 x 10(4) cells/mL in complete medium supplemented with GM-CSF, TNF alpha, IL-4, c-kit ligand, and flt3 ligand (FL). By day 14 of culture in the presence of GM-CSF + TNF alpha, the total cell number increased by 23.4 +/- 5.4-fold compared to the starting number of CD34+ cells. When the c-kit and FL were added to GM-CSF and TNF alpha, the cell number increased by 109.8 +/- 11.2-fold without affecting the immunophenotype of recovered cells. Flow cytometric analysis indicated that cells with the markers of mature dendritic cells, i.e., CD1a +CD14 -HLA-DR+, and CD80+CD86+HLA-DR+, constituted 49.0% +/- 7.5%, and 38.9% +/- 6.5%, respectively. This pattern of expression of surface antigen was unchanged whether the c-kit ligand and/or FL was added. The irradiated CD1a+HLA-DR+ cells recovered from in vitro cultures elicit a vigorous proliferation of allogeneic peripheral blood T-cells, irrespective of cytokine combinations. These findings provide advantageous tools for the large-scale generation of DCs that are potentially usable for clinical protocols of immunotherapy or vaccination in patients undergoing cancer treatment.
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PMID:Ex vivo generation of functional dendritic cells from mobilized CD34+ hematopoietic stem cells. 975 99

Interleukin-15 (IL-15) is produced by human bone marrow (BM) stromal cells and can induce CD34(+) hematopoietic progenitor cells (HPCs) to differentiate into CD56(+)CD3(-) natural killer (NK) cells in the absence of stromal cells. IL-15 mediates its effects by signaling through the beta and gammac chains of the IL-2/15 receptor (R). The c-kit ligand (KL), also produced by stromal cells, enhances the expansion of NK cells from CD34(+) HPCs in the presence of IL-15, but alone has no ability to differentiate NK cells. Mice deficient in KL do not appear to have a quantitative deficiency in NK cells, suggesting that other stromal cell factors may contribute to NK cell expansion. Flt3 ligand (FL) is also produced by BM stromal cells and has homology with KL. Furthermore, mice with a targeted disruption of the FL gene have reduced numbers of NK cells. We evaluated here the effects of FL on human NK cell development and expansion from CD34(+) HPCs. Like KL, FL significantly enhanced the expansion of NK cells from CD34(+) HPCs in the presence of IL-15, compared with IL-15 alone. However, FL alone had no effect on NK cell differentiation. We therefore explored the mechanism by which FL promotes IL-15-mediated NK cell development. FL was found to induce IL-2/15Rbeta (CD122) expression on CD34(bright) HPCs. The CD34(bright) CD122(+) cell coexpressed CD38, but lacked expression of CD7, CD56, NK cell receptors (NKRs), or cytotoxic activity in the absence of IL-15. Using limiting dilution analysis in the presence of IL-15 alone, we demonstrated that the FL-induced CD34(bright)CD122(+) HPCs had an NK cell precursor frequency 20- to 60-fold higher than the CD34(dim/neg)CD122(-) HPCs and 65- to 235-fold higher than fresh CD34(+) HPCs. KL had similar effects as FL, but induced a significantly lower percentage of CD34(bright)CD122(+) cells (P </=.01). Both FL and KL also increased IL-15R transcript in CD34(+) HPCs. Culture of CD34(+) HPCs in FL or KL, followed by culture in IL-15 alone, induced expression of both C-type lectin and Ig-superfamily NKRs on CD56(+) cells. These data collectively support a role for FL in early human NK cell development. FL or KL generate a unique CD34(bright) CD122(+)CD38(+) human NK cell intermediate from CD34(+) HPCs that lacks NK features yet is IL-15-responsive. IL-15 is then required for the induction of CD56 and NKRs, LGL morphology, cytotoxic activity, and the ability to produce abundant cytokines and chemokines.
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PMID:Flt3 ligand promotes the generation of a distinct CD34(+) human natural killer cell progenitor that responds to interleukin-15. 980 58

Marrow stromal cultures support adult CD34(+)/Lin-/HLA-DR- or CD34(+)/Lin-/CD38(-) cell differentiation into natural killer (NK) or myeloid cells, but unlike committed lymphoid progenitors (CD34(+)/Lin-/CD45RA+/CD10(+)), no B cells are generated. We tested whether different microenvironments could establish a developmental link between the NK and B-cell lineages. Progenitors were cultured in limiting dilutions with interleukin-7 (IL-7), flt3 ligand (FL), c-kit ligand (KL), IL-3, IL-2, and AFT024, a murine fetal liver line, which supports culture of transplantable murine stem cells. NK cells, CD10(+)/CD19(+) B-lineage cells and dendritic cells (DC) developed from the same starting population and IL-7, FL, and KL were required in this process. Single cell deposition of 3,872 CD34(+)/Lin-/CD38(-) cells onto AFT024 with IL-7, FL, KL, IL-2, and IL-3 showed that a one time addition of IL-3 at culture initiation was essential for multilineage differentiation from single cells. Single and double lineage progeny were frequently detected, but more importantly, 2% of single cells could give rise to at least three lineages (NK cells, B-lineage cells, and DC or myeloid cells) providing direct evidence that NK and B-lineage differentiation derive from a common lymphomyeloid hematopoietic progenitor under the same conditions. This study provides new insights into the role of the microenvironment niche, which governs the earliest events in lymphoid development.
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PMID:Single adult human CD34(+)/Lin-/CD38(-) progenitors give rise to natural killer cells, B-lineage cells, dendritic cells, and myeloid cells. 986 51

Flt3 ligand elicits a variety of effects on early hemopoietic progenitors by occupying its cognate receptor, Flt3, a member of the type III tyrosine kinase receptor family. The cytokines macrophage colony-stimulating factor (M-CSF) and stem cell factor (SCF) bind to related members of this tyrosine kinase receptors family, c-fms and c-kit, respectively. The relative effects of the cytokines M-CSF, SCF, and Flt3L on the proliferation and development of the late myeloid progenitors granulocyte-macrophage colony-forming cells (GM-CFC) were investigated. Distinct biologic responses were stimulated by ligand binding to these different tyrosine kinase receptors in enriched GM-CFC. M-CSF stimulated GM-CFC to proliferate and develop into macrophages. SCF, on the other hand, stimulated GM-CFC to develop into neutrophils. Flt3 ligand had a relatively small proliferative effect on enriched GM-CFC compared to SCF and M-CSF and had no ability to either stimulate colony formation or synergize with these two cytokines in promoting DNA synthesis, colony formation, or expansion in liquid culture. Flt3 ligand, however, was capable of maintaining the clonogenic potential of GM-CFC and acted as an anti-apoptotic agent as assessed using the Annexin-V apoptosis assay. GM-CFC cultured in Flt3 ligand eventually formed macrophages and neutrophils in liquid culture. Labeling with the membrane-associated cell tracker dye PKH26 indicated that the majority of the enriched GM-CFC responded to Flt3 ligand by undergoing limited proliferation and macrophage development, whereas other cells survived but did not proliferate and differentiate into macrophages. Thus, Flt3 ligand promoted survival and stimulated development without proliferation in primary-enriched myeloid progenitor cells.
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PMID:Flt3 ligand can promote survival and macrophage development without proliferation in myeloid progenitor cells. 1021 Mar 24

Studies of murine stem cells suggest that the cytokine receptors Flt3 and c-kit are expressed differentially on the earliest reconstitutional cells, such that Flt3 is not expressed until after stem cell activation. Much less is known about the expression of Flt3 and c-kit on primitive human cells, especially those mobilized into circulation for transplantation. In this study, early circulating precursors were analyzed for expression of Flt3 at the gene and protein levels. Flow cytometric studies showed that >90% of CD34+CD38- cells expressed Flt3 antigen (CD135). The proportion of fresh CD34+ cells expressing Flt3 decreased as CD38 staining increased. These results were confirmed by reverse transcriptase polymerase chain reaction (RT-PCR) analyses, which showed that Flt3 gene expression generally was limited to the CD34+CD38- population. Because Flt3 ligand (FL) enhances the growth and/or maintenance of primitive cells, it was important to know how long early cells retain Flt3 receptor expression in expansion culture. Both RT-PCR analyses and functional tests demonstrated that primitive cells are capable of expressing Flt3 for as long as 2 weeks in liquid medium. During the first week of culture, FL enhanced the generation of cells and progenitors without causing a loss of primitive CD34+CD38-Flt3+ cells. Flt3 expression in cell cultures was limited to precursors retaining a CD34+CD38(-/lo) phenotype. Because the most primitive human precursors are believed to express c-kit at a low level, we examined the FL responsiveness of CD34+CD38-c-kit(-/lo) cells and CD34+CD38-c-kit+ cells. CD34+CD38-c-kit(-/lo), cells constituted a small fraction (12%) of the CD34+CD38- population. Whereas both c-kit(-/lo) and c-kit+ subsets were stimulated by FL, cell expansion (p < 0.01) and colony formation (p < 0.01) were greater and maintained longer with CD34+CD38-c-kit(-/lo) cells. Furthermore, the rapid response to FL suggests that primitive CD34+CD38-c-kit(-/lo) cells express Flt3 at the time of isolation or shortly thereafter. These results demonstrate the presence of Flt3 on CD34+CD38 blood cells and suggests that Flt3 also may be present on a c-kit(-/lo) subset, among the most primitive in circulation. Flt3 is lost during maturation to committed (CD34+CD38+) lineages. Addition of FL to primitive cell cultures stimulates cell expansion while maintaining early CD34+CD38-Flt3+ precursors for at least 7 days. The possible existence of a more primitive CD34+CD38-c-kit(-/lo) Flt3(-/lo) precursor remains to be determined.
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PMID:Expression of Flt3 and c-kit during growth and maturation of human CD34+CD38- cells. 1034 Apr 8

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