UNIPROT:P15088 - FACTA Search

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Query: UNIPROT:P15088 (mast cell)
14,925 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

IL-3 dependent mast cell lines produce cytokines in response to Fc receptor cross-linkage or to ionomycin. In this study we have observed that cells pre-cultured in IL-3 produce 10-100 times more cytokine after receptor cross-linkage in comparison with IL-4 pre-cultured cells. Although several hematopoietin receptors, including those for IL-3, IL-4 and EPO, do not contain tyrosine kinase domains, their occupancy with ligand causes tyrosine phosphorylation of specific cellular substrates. Therefore, the contribution of tyrosine kinase activation to the ability of an IL-3 dependent mast cell line, CFTL-15, to produce cytokines was analyzed. The CFTL-15 cells were transfected with growth factor receptors containing ligand-inducible tyrosine kinase domains (EGFR and PDGFR, and CSF-IR) or with the EPOR. All of the transfectants were able to proliferate in response to IL-3 or to their respective growth factor and to produce IL-3 in response to IgE receptor cross-linkage. Stimulation of the EGFR and PDGFR transfectants with their respective ligands resulted in the production of IL-3, IL-6, and GM-CSF. Stimulation of the CSF-1R or EPOR transfectants with growth factor alone failed to induce cytokine production. However, in co-stimulation assays each of the growth factors enhanced the amount of cytokine produced in response to Fc epsilon RI cross-linkage. The ability of these stimuli to induce tyrosine phosphorylation in the transfectants was analyzed. Fc epsilon RI cross-linkage in the transfectants routinely induced the tyrosine phosphorylation of 145, 86 and 72 kDa proteins, with occasional phosphorylation of 55, 52, and 40 kDa proteins.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Ligand stimulation of transfected and endogenous growth factor receptors enhances cytokine production by mast cells. 171 40

Mast cells originate from pluripotential cells in the bone marrow. Specifically, human mast cells originate from CD 34-positive progenitor cells. Mast cell proliferation requires IL-3. In the mouse, additional mast cell growth is achieved by the addition of IL-4, and GM-CSF prevents mast cell proliferation. Early bone-marrow-derived mast cells can be identified by their IgE receptors, although they may not yet have the characteristic morphology of mature mast cells. Whether these early cells may by themselves have a physiologic role, remains to be determined. Mast cells persist in culture on fibroblast monolayers, in part due to the production of soluble factor(s) from the fibroblasts themselves. Final mast cell phenotype appears dependent upon the local tissue environment.
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PMID:Early development of mast cells. 171 81

The hematopoietic growth factor interleukin (IL)-3 is a potent regulator of blood cell proliferation. It promotes the survival, proliferation, and development of hematopoietic stem cells and committed progenitor cells of the granulocyte-macrophage, erythrocyte, eosinophil, basophil, megakaryocyte, mast cell, and lymphocyte lineages. In addition, IL-3 enhances mature myeloid cell functions such as phagocytosis and activation of basophils and eosinophils, as well as monocyte cytotoxicity. The first phase of clinical trials suggested that IL-3 may augment myelopoiesis in a number of clinical conditions. It may be efficacious for treatment of primary marrow disorders, including myelodysplastic syndromes and aplastic anemia. However, replacement therapy with IL-3 alone is probably not sufficient to obtain maximal stimulation of myelopoiesis. Preclinical and clinical studies published to date suggest that sequential use or combinations of growth factors will be needed to obtain optimal hematopoietic responses.
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PMID:Interleukin-3. Its biology and potential uses in pediatric hematology/oncology. 178 68

Murine interleukin 3 (IL-3) induces a strong, concomitant increase in histamine, interleukin 6 (IL-6), and interleukin 4 (IL-4) synthesis by progenitor-enriched bone marrow cell populations, whereas interleukin 2 (IL-2) or interferon-gamma (IFN-gamma) are undetectable. This phenomenon is observed between 4 and 12 h after exposure to the growth factor and attains maximal cytokine and histamine levels within 24 and 48 h, respectively. None of these mediators is produced by lymphoid populations such as lymph node cells or by granulocytes. Splenocytes secrete only low histamine and IL-6 levels, in accordance with the lower incidence of progenitors in the spleen, whereas total bone marrow cells generate substantial amounts of the three mediators even before enrichment. Histamine, IL-4-, and IL-6-producing cells copurify with immature cells and cannot be separated from each other throughout the sorting procedures used herein. They are concentrated in the low-density layers (buoyant density 1.069-1.086 g/cm3) of a discontinuous Ficoll gradient (less than 4% of the total bone marrow) together with the majority of hematopoietic progenitors (marrow-repopulating ability [MRA] cells, spleen colony-forming units [CFU-S] day-8 and day-12, granulocyte-macrophage colony-forming units [CFU-GM], and mast cell precursors). Their lightscatter characteristics are those of relatively large, granular cells. They do not belong to the most primitive stem cell subset (MRA and part of CFU-S day-12), but to a population with high mitochondrial activity identified by their important rhodamine retention (colony-forming unit cells [CFU-C], blast cells). In addition, we provide evidence that histamine, IL-4, and IL-6 do not depend on each other for their respective expression. Taken together, our data are consistent with the notion that in certain conditions, immature hematopoietic cells are a potent source of histamine and cytokines.
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PMID:Concomitant histamine, interleukin 4, and interleukin 6 production by hematopoietic progenitor subsets in response to interleukin 3. 183 45

Human bone marrow (BM) cells lacking T- and B-cell markers expressed RNA encoding interleukin (IL) 4 and secreted detectable amounts of IL-4 in supernatants in response to Fc epsilon or Fc gamma receptor (Fc epsilon R or Fc gamma R) cross-linking. In some experiments, IL-5 RNA expression in response to Fc epsilon R cross-linkage could also be detected. In contrast, RNA transcripts for, and secretion of, IL-2, IL-6, and interferon gamma were never observed. The presence of IL-3 in the cultures was essential for IL-4 production by non-B, non-T BM cells in response to Fc gamma R cross-linking and enhanced IL-4 RNA expression in response to Fc epsilon R cross-linking. Under the same experimental conditions, BM T and B lymphocytes, as well as peripheral blood T, B, and non-B, non-T cells, did not express IL-4 RNA. Prolonged incubation of non-B, non-T cells in IgE-free medium followed by extensive washing did not inhibit IL-4 production induced by anti-IgE antibodies, suggesting that the Fc epsilon R involved in the response has the characteristics of a high-affinity receptor. The Fc epsilon R+ cells were separated from the Fc epsilon R- cells by sorting non-B, non-T BM cell suspensions with fluorescein isothiocyanate-conjugated IgE and then assessed for both IL-4 RNA expression and alcian blue staining. Both IL-4-producing and alcian blue-positive cells segregated with the Fc epsilon R+ fraction. These data suggest that human BM cells, probably belonging to the mast cell and/or basophil lineage, are capable of producing IL-4 in response to Fc epsilon R or Fc gamma R cross-linkage.
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PMID:Human bone marrow non-B, non-T cells produce interleukin 4 in response to cross-linkage of Fc epsilon and Fc gamma receptors. 183 63

When fibroblast cell lines were cultured in contact with bone marrow-derived cultured mast cells (CMC), both NIH/3T3 and BALB/3T3 cell lines supported the proliferation of CMC. In contrast, when contact between fibroblasts and CMC was prohibited by Biopore membranes or soft agar, only BALB/3T3 fibroblasts supported CMC proliferation, suggesting that BALB/3T3 but not NIH/3T3 cells secreted a significant amount of a mast cell growth activity. Moreover, the BALB/3T3-derived growth activity induced the incorporation of [3H]thymidine by CMC and the clonal growth of peritoneal mast cells in methylcellulose. The mast cell growth activity appeared to be different from interleukin 3 (IL-3) and interleukin 4 (IL-4), because mRNAs for these interleukins were not detectable in BALB/3T3 fibroblasts. Although mast cells are genetically deficient in tissues of W/Wv mice, CMC did develop when bone marrow cells of W/Wv mice were cultured with pokeweed mitogen-stimulated spleen cell-conditioned medium. Because BALB/3T3 fibroblast-conditioned medium (BALB-FCM) did not induce the incorporation of [3H]thymidine by W/Wv CMC, the growth activity in BALB-FCM appeared to be a ligand for the receptor encoded by the W (c-kit) locus. Because CMC and peritoneal mast cells are obtained as homogeneous suspensions rather easily, these cells may be potentially useful as targets for the fibroblast-derived mast cell growth activity.
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PMID:Bone marrow-derived cultured mast cells and peritoneal mast cells as targets of a growth activity secreted by BALB/3T3 fibroblasts. 184 37

Mast cell-committed progenitors are detected in the unique microenvironment of the mesenteric lymph node (MLN) of Nippostrongylus brasiliensis-infected mice but not in naive bone marrow. We have determined that MLN cells, after infection, produce high levels of IL-3, IL-4, and IgE, presumably in the form of immune complexes with antigens produced by the infecting helminth. After N. brasiliensis infection, peak production of these factors occurs several days before the peak appearance of mast cell-committed progenitors in the MLN. To determine if these factors play a role in mast cell commitment, we recreated these conditions, in vitro. Naive bone marrow cells were cultured with combinations of IL-3, IL-4, and IgE immune complexes, or on IgE-coated plates, and then assayed for acquisition of the ability to form mast cell colonies when supplemented with fibroblast-conditioned medium alone. IL-3 and IgE immune complexes, and, unexpectedly, IgE immune complexes alone were found to be capable of producing mast cell-committed progenitors, i.e., cells responsive to fibroblast-conditioned medium alone, from bone marrow, whereas IL-4 did not enhance production of mast cell-committed progenitors from bone marrow. Production of IFN-gamma peaked at the same time point as committed progenitor activity and may be responsible for down regulating the response.
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PMID:The mast cell-committed progenitor. In vitro generation of committed progenitors from bone marrow. 189 99

We have characterized the mast cell stimulating activity of murine cytokine synthesis inhibitory factor, referred to as interleukin 10 (IL-10). It was found that IL-10 alone failed to support the growth of mast cell lines and mast cell progenitors. Nevertheless, it dramatically enhanced their growth when combined with IL-3 or IL-4. Moreover, IL-4 plus IL-10 supported the proliferation of mast cells as well as IL-3, suggesting that these two factors may provide a pathway for their development independent of IL-3. However, optimal mast cell growth was stimulated by the combination of IL-10, IL-4, and IL-3. This particular set of cytokines are coordinately produced by activated T cells and may constitute an effective network regulating early and late stages of mast cell development during certain immune responses.
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PMID:Interleukin 10: a novel stimulatory factor for mast cells and their progenitors. 189 6

The first stages of the pathway by which lymphocytes differentiate from hemopoietic stem cells were studied at a clonal level. When 211 interleukin 3 (IL-3)-induced blast colonies shown to be capable of differentiating into a variety of hemopoietic cells were individually transferred into wells containing a monolayer of stromal cells, growth in granulocyte, macrophage, megakaryocyte, or mast cell lineages was observed in 192 wells. In seven of these 192 wells, lymphoid cell growth also was seen. The lymphoid cells were proved to be B lymphocytes by phenotype and immunoglobulin gene rearrangement analyses and by demonstration of surface expression of IgM. The clonal origin of myeloid and B lymphocyte lineage cells was further confirmed by the generation of both myeloid and B lymphoid cells in the same well following FACS clone-sorting of IL-3 induced blast cells. These results provide in vitro evidence that cells of B lymphoid and myeloid lineage can originate clonally from single primitive hemopoietic stem cells.
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PMID:Generation of B lymphocytes from a single hemopoietic progenitor cell in vitro. 191 41

The hematopoietic growth factor IL-3 promotes the proliferation and development of several hematopoietic lineages. Inasmuch as protein kinase C has been suggested to mediate the response of IL-3, we examined the accumulation of diradylglycerols (DG) in response to IL-3 in CFTL-12 cells, a murine mast cell line that requires IL-3 for growth. Exposure of CFTL-12 cells to IL-3 resulted in the conversion of [3H]myristate-labeled lipids to DG. Mass analysis of the DG of CFTL-12 cells cultured in the presence of IL-3 showed that 58% was the ether-linked form, alkylacylglycerol, and 42% was diacylglycerol. The levels of both alkylacylglycerol and diacylglycerol declined when CFTL-12 cells were withdrawn from IL-3 and became quiescent. Stimulation of quiescent cells with IL-3 produced an acute increase in the mass of both alkylacylglycerol and diacylglycerol, consistent with phosphatidylcholine as a significant source. The effects of PMA on the generation of DG were examined to explore the role of protein kinase C activation in the response to IL-3. PMA stimulated an increase in DG accumulation that was not augmented by the simultaneous addition of IL-3. Down-modulation of protein kinase C by long term PMA treatment reduced, but did not eliminate, the IL-3-stimulated increase in DG, suggesting that protein kinase C activation results in an amplification of the initial accumulation of DG. These results indicate a role for DG, generated through the hydrolysis of phosphatidylcholine, in the induction of protein kinase C activity and the events leading to cell proliferation in response to IL-3.
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PMID:IL-3-induced generation of alkylacylglycerol and diacylglycerol in an IL-3-dependent cell line. 191 82

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