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)

The c-kit protooncogene encodes a receptor tyrosine kinase that is known to play a critical role in hemopoiesis and is essential for mast cell growth, differentiation, and cytokine production. Studies have shown that the Th2 cytokine IL-4 can down-regulate Kit expression on human and murine mast cells, but the mechanism of this down-regulation has remained unresolved. Using mouse bone marrow-derived mast cells, we demonstrate that IL-4-mediated Kit down-regulation requires STAT6 expression and phosphotidylinositide-3'-kinase activation. We also find that the Th2 cytokine IL-10 potently down-regulates Kit expression. IL-4 enhances IL-10-mediated inhibition in a manner that is STAT6 independent and phosphotidylinositide-3'-kinase dependent. Both IL-4- and IL-10-mediated Kit down-regulation were coupled with little or no change in c-kit mRNA levels, no significant change in Kit protein stability, but decreased total Kit protein expression. Inhibition of Kit expression by IL-4 and IL-10 resulted in a loss of Kit-mediated signaling, as evidenced by reduced IL-13 and TNF-alpha mRNA induction after stem cell factor stimulation. These data offer a role for STAT6 and phosphotidylinositide-3'-kinase in IL-4-mediated Kit down-regulation, coupled with the novel observation that IL-10 is a potent inhibitor of Kit expression and function. Regulating Kit expression and signaling may be essential to controlling mast cell-mediated inflammatory responses.
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PMID:Inhibition of Kit expression by IL-4 and IL-10 in murine mast cells: role of STAT6 and phosphatidylinositol 3'-kinase. 1045 90

Although CD33 represents an important marker of myeloid cell differentiation, its function remains poorly defined. In view of its homology with p75/AIRM1, a recently identified surface molecule which exerts a potent inhibition on NK cell function, we re-evaluated the effect of CD33 engagement in defined myeloid cell functions. Addition of anti-CD33 mAb to cultures of CD14+ monocytes supplemented with granulocyte-macrophage colony-stimulating factor (GM-CSF), IL-4 and TNF-alpha, prevented the generation of dendritic cells. In these cultured cells, engagement of CD33 resulted in an increased surface binding of annexin-V, followed by cell death. Mature dendritic cells were resistant to the CD33-mediated effect. Also in CD34+ precursors, cultured in the presence of flt3-ligand, c-Kit-ligand, GM-CSF, IL-4 and TNF-alpha, addition of anti-CD33 mAb prevented the recovery of mature dendritic cells. These data suggest a regulatory role of CD33 in the myeloid cell maturation and may offer a tool to interfere with the monocyte/macrophage cell function as well as with the development of dendritic cells.
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PMID:Engagement of CD33 surface molecules prevents the generation of dendritic cells from both monocytes and CD34+ myeloid precursors. 1074 98

Mast cell hyperplasia is observed in various inflammatory skin diseases. Although the pathogenesis of these conditions remains largely uninvestigated, it has been speculated that lesional mediators provide a favorable microenvironment for mast cell growth. We investigated the effect of an inflammatory cytokine, IL-1 alpha, on mast cell growth in a mast cell/fibroblast coculture system. When mouse bone marrow-derived cultured mast cells (BMMC) were cultured on a NIH/3T3 fibroblast monolayer, IL-1 alpha stimulated mast cell proliferation. However, IL-1 alpha did not stimulate 3H-thymidine incorporation in BMMC in the absence of fibroblasts. Separation of BMMC from fibroblasts by a permeable micropore membrane reduced the effect of IL-1 alpha. When BMMC were prepared from W/Wv mice, which lack a functional c-kit, or when NIH/3T3 fibroblasts were substituted with Sl/Sld-derived fibroblasts, which lack membrane-bound stem cell factor (SCF), a lower, but significant, effect of IL-1 alpha was observed. Flow cytometric analysis revealed no enhancement of SCF expression on fibroblasts following stimulation with IL-1 alpha. Neutralizing antibodies against IL-3, IL-4, IL-10, and nerve growth factor (NGF) showed no inhibition. On the other hand, indomethacin inhibited the effect of IL-1 alpha, and prostaglandin E2 induced mast cell growth in the co-cultures. These results indicate that IL-1 alpha stimulates mast cell growth by a fibroblast-dependent mechanism, in which SCF/c-kit interaction may participate in a major way. The mast cell growth activity induced by this cytokine can, at least in part, be attributed to prostaglandins. Inflammatory cytokines may thus contribute to mast cell hyperplasia in skin diseases.
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PMID:Interleukin-1 alpha enhances mast cell growth by a fibroblast-dependent mechanism. 1086 12

Dendritic cells (DCs) are crucial components of the immune system because of their unique ability as antigen-presenting cells for the initiation of a primary immune response. DCs, macrophages (Ms) and granulocytes (Gs) are believed to originate from a common myeloid progenitor cell. However, little is known about the molecular mechanisms leading to DC sublineage commitment. To establish a cell system that allows the molecular and biochemical analysis of DC differentiation and activation, we used the murine non-leukaemic, multipotential stem cell line FDCP-mix. FDCP-mix cells were cultured in various amounts of GM-colony stimulating factor (CSF) and interleukin (IL)-4 for up to 16 d and analysed for morphology, expression of CD34, c-kit, Gr-1, Mac-1, CD40, MHC-I, MHC-II and co-stimulatory molecules (CD80, CD86) using flow cytometry, and for their capacity to present foreign antigen to autologous T cells. Up to d 7, the majority of FDCP-mix cells consisted of cells differentiating along the G and M lineage. Thereafter, the number of dendritic cells increased until d 13. Differentiation along the DC lineage vs. the G and M lineage was favoured when FDCP-mix cells were cultured in high concentration GM-CSF (500 U/ml) throughout the culture and IL-4 from d 9 onwards. The dendritic cells generated from FDCP-mix cells were large, non-adherent cells with veiled processes and expressed MHC II, CD40, CD80 and CD86. After pulsing with a foreign antigen (keyhole limpet haemocyanin), FDCP-mix-derived dendritic cells stimulated [(3)H]-thymidine incorporation of naive T-cells in an autologous mixed lymphocyte reaction (MLR). Our results show that functionally mature dendritic cells are generated from the multipotential stem cell line FDCP-mix. This cell line thus provides the unique possibility of establishing multipotential transgenic cell lines capable of differentiation along the DC lineage. The experimental system described here should prove a valuable tool for studying DC differentiation and function.
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PMID:Generation of functionally mature dendritic cells from the multipotential stem cell line FDCP-mix. 1112 52

When dendritic cells (DC) present antigens to T cells, reciprocal cellular interactions occur that lead to cytokine production. This cytokine response is regulated by specific properties of DC, notably their maturation/activation status and perhaps their origin. The latter possibility prompted us to determine if DC produced along distinct developmental pathways induced distinct T cell responses. Hematopoietic progenitor cells with the potential to differentiate into multiple lineages of cells were induced to differentiate into DC along two pathways. One leads to the formation of lymphoid-related DC but not of monocyte-derived DC and is induced by culture of CD34(+) cells with flt-3 ligand (F), c-kit ligand (K), GM-CSF (Gm), IL-1beta ("1"), and IL-7 ("7") (FKGm17). Another pathway with distinct molecular requirements supports in part monocyte-derived DC and is induced by the cytokines F, K, Gm, TNF-alpha (T), and IL-4 ("4") (FKGmT4). DC produced along these two pathways were isolated by flow cytometry and compared. They differed only slightly in phenotype and morphology and both induced Th1-type cytokine production in MLR (mixed lymphocyte reactions). However, on a cell-per-cell basis, FKGm17-DC produced more IL-18 or IL-12 and induced more IFN-gamma by T cells in MLR. Such superior properties were not intrinsically determined by the origin of the DC but were induced by FKGm17 cytokines. We conclude that lymphoid-related DC have the potential to induce Th1 T cell responses but that environmental signals strongly influence T-cell-stimulating properties of DC.
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PMID:Regulation of T cell cytokine production by dendritic cells generated in vitro from hematopoietic progenitor cells. 1133 44

We tried to efficiently generate human dendritic cells (DCs) from CD34+ peripheral blood hematopoietic progenitor cells mobilized by high-dose chemotherapy and subsequent administration of granulocyte colony-stimulating factor, using a liquid suspension culture system. Among various combinations, the combination of c-kit ligand, flt-3 ligand, c-mpl ligand (TPO), and interleukin (IL)-4 most potently generated the number of CD1a+CD14- DCs in cultures containing granulocyte-macrophage colony-stimulating factor (GM-CSF) and tumor necrosis factor alpha (TNF-alpha). The delayed addition of IL-4 on day 6 of culture gave rise to an additional increase in the yield of CD1a+CD14-DCs that were characterized by the expression of HLA-ABC, HLA-DR, CD80, CD86, and CD83. The majority of the sorted CD1a-CD14+ cells derived from 6-day culture of CD34+ cells gave rise to CD1a+CD14- DCs and CD1a-CD14+ macrophages on day 12 of culture in the presence and absence of IL-4, respectively. These findings suggest that IL-4 promotes the differentiation of CD1a- CD14+ cells derived from mobilized CD34+ peripheral blood hematopoietic progenitors to CD1a+ CD14- DCs. The majority of these DCs expressed CD68 but not the Langerhans-associated granule antigen, a finding that suggests they emerge through the monocyte differentiation pathway. The addition of TPO and IL-4 to cultures did not affect the potential of DCs to stimulate the primary allogeneic T-cell response. These findings demonstrated that the combination of c-kit ligand plus flt-3 ligand plus TPO with GM-CSF plus TNF-alpha, followed by IL-4, is useful for ex vivo generation of human DCs from mobilized CD34+ peripheral blood progenitors.
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PMID:Efficient ex vivo generation of human dendritic cells from mobilized CD34+ peripheral blood progenitors. 1172 65

Aberrant dendritic cell (DC) development and function may contribute to autoimmune disease susceptibility. To address this hypothesis at the level of myeloid lineage-derived DC we compared the development of DC from bone marrow progenitors in vitro and DC populations in vivo in autoimmune diabetes-prone nonobese diabetic (NOD) mice, recombinant congenic nonobese diabetes-resistant (NOR) mice, and unrelated BALB/c and C57BL/6 (BL/6) mice. In GM-CSF/IL-4-supplemented bone marrow cultures, DC developed in significantly greater numbers from NOD than from NOR, BALB/c, and BL/6 mice. Likewise, DC developed in greater numbers from sorted (lineage(-)IL-7Ralpha(-)SCA-1(-)c-kit(+)) NOD myeloid progenitors in either GM-CSF/IL-4 or GM-CSF/stem cell factor (SCF)/TNF-alpha. [(3)H]TdR incorporation indicated that the increased generation of NOD DC was due to higher levels of myeloid progenitor proliferation. Generation of DC with the early-acting hematopoietic growth factor, flt3 ligand, revealed that while the increased DC-generative capacity of myeloid-committed progenitors was restricted to NOD cells, early lineage-uncommitted progenitors from both NOD and NOR had increased DC-generative capacity relative to BALB/c and BL/6. Consistent with these findings, NOD and NOR mice had increased numbers of DC in blood and thymus and NOD had an increased proportion of the putative myeloid DC (CD11c(+)CD11b(+)) subset within spleen. These findings demonstrate that diabetes-prone NOD mice exhibit a myeloid lineage-specific increase in DC generative capacity relative to diabetes-resistant recombinant congenic NOR mice. We propose that an imbalance favoring development of DC from myeloid-committed progenitors predisposes to autoimmune disease in NOD mice.
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PMID:Increased generation of dendritic cells from myeloid progenitors in autoimmune-prone nonobese diabetic mice. 1199 55

Combination of stem cell factor (SCF) and interleukin-6 (IL-6) significantly promoted proliferation of human mast cells from cord blood CD34+ cells. Most of the cells, cultured in the presence of SCF and IL-6 for 10 weeks, expressed c-kit and contained a significant amount of histamine and tryptase and a low amount of chymase. Both tryptase-positive chymase-negative mast cells (MC(T)) and tryptase-positive chymase-positive mast cells (MC(TC)) were found in the same colony derived from a single cord blood CD34+ cell, suggesting that MC(T) and MC(TC) develop from common precursor cells. Single-cell culture of CD34+ cells revealed that committed mast cell progenitors are included in CD34+CD38+HLA-DR- cells. IL-4 significantly enhanced high-affinity immunoglobulin E (IgE) receptor (FcepsilonRI) alpha-chain messenger RNA expression and induced FcepsilonRI on SCF-dependent cord blood-derived human mast cells, resulting in high histamine-releasing activity upon cross-linking of FcepsilonRI. Another factor that up-regulated FcepsilonRI was IgE, and a combination of IL-4 and IgE markedly augmented FcepsilonRI expression on the mast cells. IL-4 and IgE may enhance FcepsilonRI expression by distinct mechanisms; IL-4 promotes FcepsilonRI alpha-chain gene transcription and thus increases alpha-chain protein synthesis in the cells, whereas the binding of IgE may anchor the FcepsilonRI on the cell surface, resulting in suppression of internalization of FcepsilonRI. Mast cells are progeny of hematopoietic stem cells. Recent discovery of a xenotransplantation model revealed that human hematopoietic stem cells can proliferate and differentiate into mature mast cells in the mouse skin 3 months after transplantation of human cord blood CD34+ cells, suggesting that this model may pave the way to clarification of the functions of human mast cells in vivo.
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PMID:Cytokines regulate development of human mast cells from hematopoietic progenitors. 1204 63

We have biologically characterized two new members of the IL-17 cytokine family: IL-17F and IL-25. In contrast to conventional in vitro screening approaches, we have characterized the activity of these new molecules by direct in vivo analysis and have compared their function to that of other IL-17 family members. Intranasal administration of adenovirus expressing IL-17, IL-17C, or IL-17F resulted in bronchoalveolar lavage neutrophilia and inflammatory gene expression in the lung. In contrast, intranasal administration of IL-25-expressing adenovirus or IL-25 protein resulted in the production of IL-4, IL-5, IL-13, and eotaxin mRNA in the lung and marked eosinophilia in the bronchoalveolar lavage and lung tissue. Mice given intranasal IL-25 also developed epithelial cell hyperplasia, increased mucus secretion, and airway hyperreactivity. IL-25 gene expression was detected following Aspergillus and Nippostrongylus infection in the lung and gut, respectively. IL-25-induced eosinophilia required IL-5 and IL-13, but not IL-4 or T cells. Following IL-25 administration, the IL-5(+) staining cells were CD45R/B220(+), Thy-1(+/-), but were NK1.1-, Ly-6G(GR-1)-, CD4-, CD3-, and c-kit-negative. gamma-common knockout mice did not develop eosinophilia in response to IL-25, nor were IL-5(+) cells detected. These findings suggest the existence of a previously unrecognized cell population that may initiate Th2-like responses by responding to IL-25 in vivo. Further, these data demonstrate the heterogeneity of function within the IL-17 cytokine family and suggest that IL-25 may be an important mediator of allergic disease via production of IL-4, IL-5, IL-13, and eotaxin.
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PMID:New IL-17 family members promote Th1 or Th2 responses in the lung: in vivo function of the novel cytokine IL-25. 1207 75

It is widely accepted that neurokinin 1 (NK(1)) receptors are not generally expressed on mast cells but little is known about their expression in inflammation. The present study shows expression of NK(1) receptors on bone marrow-derived mast cells (BMMC) under the influence of IL-4 or stem cell factor (SCF). Highest expression was found when both cytokines are present. Six days of coculture with the cytokines IL-4 and SCF showed significant expression of NK(1) receptors (NK(1) receptor(+)/c-kit(+) BMMC; control: 7%, IL-4/SCF: 16%), while 12 days of cytokine coculture increased this expression to 37% positive cells. A longer coculture with IL-4 and SCF did not give an additional effect. Increased expression in IL-4/SCF-treated BMMC was further confirmed using Western blot analysis. Next, we demonstrated the functional relevance of NK(1) receptor expression for mast cell activation, resulting in an enhanced degranulation upon stimulation by substance P. BMMC activation was significantly diminished by the NK(1) receptor antagonist RP67580 (10 micro M) when stimulated with low concentrations of substance P. The inactive enantiomer RP65681 had no effect. In addition, BMMC cultured from bone marrow of NK(1) receptor knockout mice showed significantly decreased exocytosis to low concentrations of substance P. The present study clearly shows that NK(1) receptor-induced activation contributes significantly at low physiological substance P concentrations (<100 micro M). In conclusion, BMMC were shown to express NK(1) receptors upon IL-4/SCF coculture. This expression of NK(1) receptors has been demonstrated to be of functional relevance and leads to an increase in the sensitivity of BMMC to substance P.
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PMID:Functional expression of neurokinin 1 receptors on mast cells induced by IL-4 and stem cell factor. 1290 13

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