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)

Erythropoietin (Epo), granulocyte-macrophage colony-stimulating factor (GM-CSF) and granulocyte colony-stimulating factor- (G-CSF) dependent cell lines have been derived from the murine hematopoietic cell line 32D with a selection strategy involving the culture of the cells in FBS-deprived medium supplemented only with pure recombinant Epo, GM-CSF, or G-CSF. The cells retain the diploid karyotype of the original 32D clone, do not grow in the absence of exogenous growth factor, and do not induce tumors when injected into syngeneic recipients. The morphology of the Epo-dependent cell lines (32D Epo1, -2, and -3) was heterogeneous and evolved with passage. The percent of differentiated cells also was a function of the cell line investigated. Benzidine-positive cells ranged from 1-2% (32D Epo3) to 50-60% (32D Epo1). These erythroid cells expressed carbonic anhydrase I and/or globin mRNA but not carbonic anhydrase II. The GM-CSF- and G-CSF-dependent cell lines had predominantly the morphology of undifferentiated myeloblasts or metamyelocytes, respectively. The GM-CSF-dependent cell lines were sensitive to either GM-CSF or interleukin-3 (IL-3) but did not respond to G-CSF. The G-CSF-dependent cell lines grew to a limited extent in IL-3 but did not respond to GM-CSF. These results indicate that the cell line 32D, originally described as predominantly a basophil/mast cell line, has retained the capacity to give rise to cells which proliferate and differentiate in response to Epo, GM-CSF, and/or G-CSF. These cells represent the first nontransformed cell lines which can be maintained in growth factors other than IL-3 and which differentiate in the presence of physiologic signals. As such, they may represent a model to study the molecular mechanisms underlying the process of hematopoietic differentiation, as well as sensitive targets for bioassays of specific growth factors.
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PMID:Selection of lineage-restricted cell lines immortalized at different stages of hematopoietic differentiation from the murine cell line 32D. 266 5

Two distinct hemopoietic growth factors, interleukin 3 (IL-3) and erythropoietin (EPO), support the growth and development of erythroid cells in a sequential manner in vitro. Stimulation of multipotential stem cells by IL-3 appears to develop committed erythroid progenitor cells that respond to EPO. When several murine IL-3-dependent cell lines were assayed for their ability to respond to EPO, the growth and survival of the three cell lines showing the profiles of either myeloid or mast cell lineage (IC-2, DA-1, FDC-P2) were stimulated by EPO in a dose-dependent fashion. To determine whether the biologic effects were mediated through the specific receptors for EPO, we performed binding experiments on these cells with radioiodinated EPO. All of these cells displayed significant levels of specific binding for EPO. Among a family of hemopoietic growth factors, only unlabeled EPO was able to compete for the binding of radioiodinated EPO to the cells. Analysis of the binding data revealed the existence of a single case of binding sites in extremely low abundance. IC-2 cells were used to study the effects of IL-3 on the regulation of expression of EPO receptors. It was demonstrated that a decrease in IL-3 concentration in the culture medium increased the responsiveness to EPO and the amount in specific binding of EPO as well. These results suggest that some IL-3-dependent cell lines have functional EPO receptors and their expression may be modulated by IL-3.
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PMID:Expression of the functional erythropoietin receptors on interleukin 3-dependent murine cell lines. 282 92

Yolk-sac-derived hematopoietic cells were infected with a helper-free stock of Abelson virus (A-MuLV). After infection, cells were plated in a clonogenic methylcellulose culture in the absence of exogenous growth factors such as interleukin 3 (IL 3) and erythropoietin (Epo). No colonies were observed in cultures without viral infection, whereas factor-independent colonies were consistently observed with virus-infected cultures. The number of colonies was linearly correlated with the number of cells plated. Erythroid-mix colonies consisting mostly of erythroblasts, macrophages, and mast cells could be observed. Tumorigenic, continuously growing mast cell lines could be generated at high frequency from these erythroid-mix colonies after they were initially passaged in the presence of an irradiated feeder layer for 4 to 8 weeks. Southern blot analysis of the DNA from five of these lines examined were all shown to contain integrated A-MuLV proviral DNA. These data are evidence that A-MuLV can directly infect embryonic multipotent hematopoietic progenitor cells and drive them to differentiate to various progeny cells without exogenous growth factors.
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PMID:Formation of factor-independent hematopoietic multilineage colonies after Abelson virus infection. 283 33

We have established permanent lines of nonadherent cells from fresh normal mouse bone marrow in media containing pokeweed mitogen-stimulated spleen cell conditioned medium (PWSCM). These lines continuously produced erythropoietic progenitor cells (detected by their ability to form erythroid bursts in semi-solid medium containing erythropoietin) together with cells having characteristics of the mast cell lineage (as demonstrated by metachromatic staining with toluidine blue, histamine content and membrane receptors for IgE). Sixteen such cell lines have been established in sixteen attempts. Cloning experiments were carried out to determine the nature of the progenitor cell(s) responsible for the permanence of these cultures. When cells were cultured in methylcellulose medium containing PWSCM, colonies were observed which reached macroscopic size after 4 weeks of incubation. Replating of individual primary colonies resulted in secondary colony formation, indicating the presence of progenitor cells with self-renewal potential. Forty-seven primary colonies were picked and their cells were suspended in liquid culture medium containing PWSCM. Of these, twenty-one could be expanded to establish permanently growing sublines. Sixteen of these sublines were found to be composed of both erythroid progenitors and mast cells. In five sublines only mast cells could be seen; none of the sublines appeared to be purely erythroid. Karyotypic analysis of mast cells and of erythroid cells of seven sublines derived from individual colonies which arose in cocultures of male and female cells revealed that the mast cells and erythroid cells were both of the same sex in each of the seven sublines; this demonstrates the single cell origin of each colony and of the two lineages derived from it. We conclude that these nonadherent, factor-dependent cell lines are maintained by self-renewal and differentiation of bipotential progenitor cells apparently restricted to the erythroid and mast cell lineages.
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PMID:A self-renewing, bipotential erythroid/mast cell progenitor in continuous cultures of normal murine bone marrow. 293 43

Normal adult C57BL, BALB/c, and C3H/HeJ mice were injected intraperitoneally three times daily for up to 6 days with 102,000 U (200 ng) per injection of purified, bacterially synthesized, Multipotential colony-stimulating factor (CSF) (Interleukin-3) (rMulti-CSF) and compared with control mice injected with serum/saline with or without added endotoxin (1 ng/mL). Mice injected with rMulti-CSF exhibited tenfold rises in blood eosinophil and twofold to threefold rises in neutrophil and monocyte levels. The spleens from mice injected with rMulti-CSF showed a 50% increase in weight, elevated levels of maturing granulocytes, eosinophils, nucleated erythroid cells and megakaryocytes, and up to 100-fold rises in mast cells. Progenitor cell frequencies in the spleen were elevated sixfold to 18-fold. No significant changes were observed in the marrow. Sixfold to 15-fold rises were observed in peritoneal cell populations of mice injected with rMulti-CSF with evidence of increased peritoneal macrophage phagocytic activity. Livers of C57BL mice, but not of the other strains, exhibited increased numbers of infiltrating hematopoietic cells whereas rises in mast cell numbers were observed in the mesenteric lymph node, skin, and gut in BALB/c and C3H/HeJ mice. Endotoxin was excluded as being responsible for the observed changes except possibly those involving peritoneal macrophage phagocytic activity. The results indicate that the injection of normal mice with rMulti-CSF significantly stimulates the same types of hematopoietic populations as are stimulated in vitro by Multi-CSF and indicate that this and other CSFs should be useful in stimulating hematopoietic repopulation and functional activity in vivo.
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PMID:Effects of purified bacterially synthesized murine multi-CSF (IL-3) on hematopoiesis in normal adult mice. 308 41

Recent studies have shown that retroviruses can serve as efficient vectors of exogenous genes that can be inserted and expressed in a variety of mammalian cell types. Several investigators have exposed total bone marrow populations to retroviruses in vitro and have demonstrated the presence of exogenous genes after inoculation into irradiated mice. Our approach was to identify individual pluripotent hemopoietic progenitors in vitro and to use these single cells as targets for retroviral gene transfer. This approach was made possible by our previous identification of in vitro colonies containing pluripotent, undifferentiated blast cells with very high secondary replating efficiencies. By using a monoclonal antibody to detect the product of the transferred gene, we were able to document infection of single multipotent cells and to quantitate the percentage of the progeny cells that expressed the transferred gene. Specifically, individual blast cells were obtained by micromanipulation, exposed to Harvey sarcoma virus, and ras gene expression was detected by immunofluorescence in individual colonies. A variety of types of p21-positive colonies were seen, including a macrophage (m)-neutrophil (n)-erythroid (E)-mast cell (mast)-megakaryocyte (M) colony, an mEmastM colony, an nmmast colony, mnE colonies, mn colonies, and m colonies. These results demonstrated that multipotent progenitors were recipients of exogenous genes and that these genes were expressed in the differentiated progeny. Initial experiments failed to demonstrate that the cells in the infected colonies were transformed. Retroviral infection of isolated blast cells may provide a unique method for studies of the effects of a variety of genes, including oncogenes, in hemopoietic cells.
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PMID:In vitro retroviral transfer of ras genes to single hemopoietic progenitors. 310 76

Isolated progenitors of defined type are useful for definitive studies of commitment, growth factor specificity, and identification of viral target cells. Blast cell colonies from cultures of spleen cells obtained from mice treated with 5-fluorouracil have proven to be a useful source of pluripotent progenitors. These colonies also contain committed progenitors of some lineages such as the macrophage lineage; however, the incidence of progenitors for pure erythroid colonies is low in this population. We report here the development of an alternative blast cell colony assay using fetal liver cells that is based on the greater sensitivity of early progenitors to interleukin 3. Replating studies demonstrated a variety of types of secondary colonies, including macrophage, neutrophil, neutrophil/macrophage, megakaryocyte, erythroid, mast cell, and mixed. The incidence of pure erythroid and mast cell colony-forming cells was substantially higher in fetal liver blast cell colonies than in colonies cultured from adult spleen.
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PMID:Fetal liver blast cell colonies: a source of erythroid progenitors. 326 29

The influence of low oxygen tension on the clonal growth of hemopoietic stem cells in vitro was examined. The numbers of colonies of neutrophil, macrophage, and eosinophil progenitors (CFU-C), derived from human bone marrow, increased at a rate 1.7 times higher in low oxygen tension (7% O2) than in a gas phase that contained air (19% O2). The erythroid (BFU-E) and multipotential (CFU-mix) progenitors increased about 2.4 times in 7% O2, and the increase in the composed cell type of mixed colonies showed no rate difference in either gas phase. Under atmospheric conditions, a mouse mast cell progenitor (CFU-mast) formed colonies, with the addition of 2-mercaptoethanol (2-ME). Under low oxygen tension, the CFU-mast formed colonies without 2-ME, but a further enhancement was observed with the addition of 2-ME. Blood gas analysis of human bone marrow showed a pO2 of 51.8 +/- 14.5 mmHg, which was closed to O2 tension in a gas phase culture media containing 7% O2. This data shows that the physiological O2 tension enhances hemopoietic stem cell proliferation in vitro, and that a part of the enhancing effect by 2-ME is due to a prevention of O2 toxicity at 19% O2.
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PMID:Kinetics of hemopoietic stem cells in a hypoxic culture. 327 28

B cell stimulatory factor-1 (BSF-1)/Interleukin 4 (IL 4) is a T cell product originally characterized on the basis of its actions on B lymphocytes. Recently it has been reported that BSF-1 activates T cell and mast cell lines. We now provide evidence that BSF-1, purified to homogeneity, also has a broad spectrum of activity on hematopoietic progenitor cells (HPC). However, like its action on B cells, prolierative effects were only observed when BSF-1 was combined with an additional factor. Thus BSF-1, in costimulation with recombinant G-CSF, enhances the proliferation of granulocyte-macrophage progenitor cells (CFU-GM). BSF-1 increases the proliferation of CFU-e in the presence of recombinant erythropoietin (rEPO). Furthermore, BSF-1 induces, together with rEPO, colony formation by primitive erythroid (BFU-e) and multipotent (CFU-mix) progenitor cells comparable to that observed with rEPO and interleukin 3 (IL 3). BSF-1 is also active as a megakaryocyte colony-stimulating factor; in combination with recombinant interleukin 1, rEPO or the supernatant of the T cell hybridoma FS7-20.6.18, BSF-1 induces megakaryocyte colony formation (CFU-Mk). The same factors that synergize with BSF-1 also enhance CFU-Mk proliferation induced by IL 3. Although the precise mechanisms of action of BSF-1 on HPC is not yet known, we propose that BSF-1 represents an activation factor for HPC and prepares the progenitor cells to respond to specific growth or differentiation factors.
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PMID:Effects of B cell stimulatory factor-1/interleukin 4 on hematopoietic progenitor cells. 349 34

Antiserum raised against a mouse mast cell line (FMP1) reacts with 90% to 100% of spleen colony-forming units (CFU-s), granulocyte/macrophage colony-forming cells (CFC-gm), erythroid burst-forming units (BFU-e), and 15% of nucleated marrow cells, using a complement-dependent cytotoxicity assay. We demonstrated that bone marrow, spleen, or thymus cells are able to absorb this activity from the antiserum. Although mouse brain cells have low reactivity with anti-FMP1 serum, the cytolysis level was reduced to background when antiserum was absorbed with brain cells. In addition, colony formation by marrow CFU-s, CFC-gm, and BFU-e was no longer prevented when the cells were incubated with brain-absorbed anti-FMP1 serum and complement. These findings suggest the presence of brain-associated antigens on CFU-s, CFC-gm, and BFU-e. To test whether a CFU-s accessory cell population in marrow is affected by treatment with anti-FMP1 serum and complement, antibody-treated marrow cells were mixed with large numbers of thymocytes and injected into recipient mice. Colony formation was not altered, indicating that the antiserum reacted directly with antigens on CFU-s and not on CFU-s accessory cells.
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PMID:Expression of tumor-associated surface membrane antigens on marrow CFU-s, CFC-gm, BFU-e, and brain CFU-s. 397 26

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