Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P04141 (granulocyte-macrophage colony-stimulating factor)
6,790 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Granulocyte-macrophage colony-stimulating factor (GM-CSF) is a pleiotropic hematopoietic growth factor that induces both growth and differentiation of tissue macrophages. The subcellular mechanism of action of GM-CSF is unknown. We have examined the effect of GM-CSF on the immediate early response gene, Egr-1, in murine peritoneal macrophages. Our data demonstrate that recombinant GM-CSF (25 units/ml) produces a 12-fold increase in Egr-1 mRNA within 30 min. Pretreatment with cycloheximide (10 micrograms/ml) had no effect on the ability of GM-CSF to increase Egr-1 mRNA. In nuclear runoff studies, GM-CSF increased the transcription rate of Egr-1 by 10-fold at 10 min. The maximal effect on Egr-1 transcription occurred at 25 min (13-fold) and decreased by 45 min. The half-life of Egr-1 mRNA in GM-CSF-treated macrophages is 13-21 min. We were unable to calculate the half-life in control cells, however, because of the short half-life and low level of constitutive expression of Egr-1 mRNA. Endogenous protein kinase C activity in macrophages was depleted by treatment with 12-O-tetradecanoylphorbol-13-acetate for 24 h. GM-CSF increased Egr-1 mRNA in protein kinase C-depleted macrophages, whereas the stimulatory effect of 12-O-tetradecanoylphorbol-13-acetate on Egr-1 was blocked. These data show that GM-CSF rapidly increases transcription of Egr-1 mRNA. The effect of GM-CSF on Egr-1 mRNA does not require de novo protein synthesis or protein kinase C. These findings provide a basis for investigating the molecular mechanism of action of GM-CSF in tissue macrophages.
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PMID:Granulocyte-macrophage colony-stimulating factor induces transcriptional activation of Egr-1 in murine peritoneal macrophages. 200 29

Bryostatin 1 is a macrocyclic lactone which activates protein kinase C (PKC), and is able to induce maturation in cells from some cases of acute myelogenous leukemia. This paper reports that bryostatin inhibits the spontaneous in vitro proliferation of chronic myelomonocytic leukemia cells (CMMoL) in semi-solid medium at concentrations between 10(-8) and 10(-10) M. Growth inhibition was equivalent to or greater than that seen with phorbol-12-myristate-13-acetate. Bryostatin acted primarily as a cytotoxic agent, rather than as a cytostatic agent. The spontaneous in vitro proliferation of CMMoL cells is due to autocrine or paracrine secretion of granulocyte-macrophage colony-stimulating factor (GM-CSF). Bryostatin 1 actually increased GM-CSF secretion by CMMoL cells while inhibiting their proliferation. Bryostatin 1 also increased tumor necrosis factor alpha (TNF alpha) secretion by CMMoL cells, and in 2/5 cases the cytotoxic effect of bryostatin 1 on fresh CMMoL cells could be substantially reversed by the addition of antibody to TNF alpha to the culture medium. Bryostatin 1 may produce a cytotoxic effect on CMMoL cells in part by increasing the secretion of, or sensitivity to, TNF alpha, and may have therapeutic potential in CMMoL.
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PMID:Bryostatin 1: a potential anti-leukemic agent for chronic myelomonocytic leukemia. 202 97

Bryostatin 1 is a macrocyclic lactone activator of protein kinase C which has displayed promising antileukemic potential in pre-clinical studies. We have assessed the effect of bryostatin 1 on the in vitro clonogenic response of leukemic myeloblasts obtained from 12 patients with acute non-lymphocytic leukemia to recombinant granulocyte-macrophage colony-stimulating factor (rGM-CSF), and have compared these responses to those of normal human hematopoietic progenitors. Although leukemic blast progenitors responded in a heterogenous manner to bryostatin 1 as a single agent, co-administration of 12.5 or 100 nM bryostatin 1 in conjunction with 1.25 ng/ml rGM-CSF resulted in a significant reduction in colony formation (compared to rGM-CSF alone) in 8/12 specimens, and sub-additive stimulatory effects in all samples. In addition, the exposure of cells to 12.5 nM bryostatin 1, either alone or in conjunction with 1.25 ng/ml rGM-CSF, substantially reduced or eliminated leukemic cell self-renewal capacity in all samples assayed. In contrast to the effects observed in leukemic cells, exposure of adherent and T-cell depleted normal bone marrow mononuclear cells to equivalent concentrations of bryostatin 1 and rGM-CSF consistently produced supra-additive effects on the growth of normal committed myeloid progenitors (day 14 CFU-GM). When normal marrow cells were further enriched for progenitors (MY-10+), concentrations of bryostatin 1 that were unable to support growth when administered alone significantly potentiated the number of GM colonies formed in response to rGM-CSF. These studies suggest that bryostatin 1 may modulate the in vitro response of certain normal and leukemic progenitor cells to rGM-CSF, and that the nature of this response differs between the two cell types. They also indicate that bryostatin 1 may be particularly effective in limiting the self-renewal capacity of leukemic myeloblasts, an in vitro characteristic with potentially important in vivo significance.
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PMID:Effect of the protein kinase C activating agent bryostatin 1 on the clonogenic response of leukemic blast progenitors to recombinant granulocyte-macrophage colony-stimulating factor. 203 60

A new human leukemia cell line, designated as ME-1, was established from the peripheral blood leukemia cells of a patient with acute myelomonocytic leukemia with eosinophilia (M4E0). This cell line has the characteristic chromosome abnormality of M4E0, inv(16) (p13q22). When cultured in RPMI 1640 medium containing 10% fetal calf serum, ME-1 cells were monoblastoid, but with the addition of cytokines such as interleukin-3 (IL-3), granulocyte-macrophage colony-stimulating factor (GM-CSF), IL-4, or medium conditioned by phytohemagglutinin-stimulated human peripheral leukocytes (PHA-LCM), the cells exhibited differentiation to macrophage-like cells. PHA-LCM also promoted eosinophilic-lineage differentiation of this cell line, although IL-5 did not do so. To elucidate the mechanism of proliferation and differentiation of ME-1 cells, we studied the effect of a potent inhibitor of protein kinase C, 1-(5-isoquinolinyl-sulfonyl)-2-methylpiperazine (H-7), on colony formation of ME-1 cells. H-7 inhibited colony formation of ME-1 cells by IL-3 or GM-CSF dose dependently, but had little inhibitory effect on colony formation by IL-4. These results indicate that the proliferation and differentiation of ME-1 cells by IL-3 or GM-CSF were related to the activation of protein kinase C, while those by IL-4 involved other regulatory systems. ME-1 cells should be useful for studying the pathogenesis of M4E0 and the mechanisms of proliferation and differentiation of leukemic and normal progenitors by cytokines.
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PMID:Establishment and characterization of a new human leukemia cell line derived from M4E0. 207 80

Colony-stimulating factor-1 (CSF-1 or M-CSF) regulates pleiotropic developmental and functional responses of macrophages and their committed bone marrow progenitors and supports the viability of cells of the mononuclear phagocyte lineage. Its actions are mediated through its binding to cell surface CSF-1 receptors (CSF-1R) that exhibit ligand-stimulated tyrosine kinase activity. CSF-1R-induced phosphorylation of intracellular protein substrates initiates a cascade of biochemical reactions that relay signals to the cell nucleus, elicit transcription of CSF-1-responsive genes and culminate in cell division. The actions of the CSF-1R kinase can be interrupted by binding of certain monoclonal antibodies to the extracellular domain of the receptor or by agents which activate protein kinase C and accelerate receptor turnover. CSF-1R is encoded by the c-fms proto-oncogene, and specific genetic alterations, which constitutively activate the receptor kinase, provide sustained signals for cell growth leading to cell transformation. Perturbations in the structure or expression of the c-fms proto-oncogene might therefore contribute to leukemia.
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PMID:Regulation of mononuclear phagocyte proliferation by colony-stimulating factor-1. 215 78

Human granulocyte-macrophage colony-stimulating factor (GM-CSF) increases neutrophil surface expression of the cellular adhesion molecule CD11b and primes the respiratory burst stimulated by the bacterial peptide f-met-leuphe (FMLP). We have examined the effects of the isoquinolinesulfonamide protein kinase inhibitors H7 and H8 on these functions of GM-CSF using whole blood assays. Concentrations of H7 and H8 that inhibited the 12-O-tetradecanoyl-phorbol-13-acetate (TPA) stimulated upregulation of CD11b expression and activation of the respiratory burst, both augmented the effects of GM-CSF. H7 and H8 enhanced the GM-CSF-stimulated increase in CD11b expression to 215% +/- 10% (P less than .05) and 233% +/- 45% (P less than .05), respectively, of the value obtained with GM-CSF alone. The GM-CSF priming of the FMLP-stimulated oxidative burst was increased to 190% +/- 44% (P less than .01) by preincubation with H7 and to 172% +/- 25% (P less than .01) with H8. Preincubation with H8 did not affect overall binding of 125I-GM-CSF to neutrophils, but inhibited GM-CSF receptor internalization after ligand binding (P less than .05). These data indicate that the effects of GM-CSF are not mediated by protein kinase C and that a phosphorylation event down-modulates the neutrophil response to GM-CSF. It suggests that internalization of the receptor-ligand complex is not a rate-limiting step in signal transduction, and that regulation of the rate of internalization may be an important level of control of the activity of GM-CSF.
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PMID:Isoquinolinesulfonamide protein kinase inhibitors H7 and H8 enhance the effects of granulocyte-macrophage colony-stimulating factor (GM-CSE) on neutrophil function and inhibit GM-CSF receptor internalization. 216 26

Exposure of human polymorphonuclear neutrophils (PMNs) to recombinant human granulocyte-macrophage colony-stimulating factor (GM-CSF) resulted in a time- and concentration-dependent (3-100 units/ml) extracellular release of a specific (vitamin B12-binding protein) but not azurophil granule constituent (myeloperoxidase). Negligible granule exocytosis occurred if PMNs were not preincubated with cytochalasin B prior to contact with GM-CSF. The extent of degranulation elicited with GM-CSF was reduced but not abolished when PMNs were incubated with EGTA in calcium-free medium. GM-CSF did not stimulate a rise in the cytosolic-free calcium concentration ([Ca2+]i), and it had no effect on PMN protein kinase C (PKC) activity.
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PMID:Recombinant human granulocyte-macrophage colony-stimulating factor induces granule exocytosis from human polymorphonuclear neutrophils. 218 33

Colony-stimulating factor 1 (CSF-1) is required for the survival, proliferation and differentiation of monocytes. We previously demonstrated that the CSF-1 receptor is linked to a pertussis toxin-sensitive G protein and that the induction of Na+ influx by CSF-1 is a pertussis toxin-sensitive event. The present studies have examined activation of protein kinase C as a potential intracellular signaling event induced by the activated CSF-1 receptor. The results demonstrate that CSF-1 stimulates translocation of protein kinase C activity from the cytosol to membrane fractions. This activation of protein kinase C was sensitive to pretreatment of the monocytes with pertussis toxin. Lipid distribution studies demonstrated that phosphatidylcholine (PC) is the major phospholipid in human monocytes. Moreover, the results indicate that CSF-1 stimulation is associated with decreases in PC, but not in phosphatidylinositol (PI), levels. The absence of an effect of CSF-1 on PI turnover was confirmed by the lack of changes in inositol phosphate production. In contrast, CSF-1 stimulation was associated with increased hydrolysis of PC to phosphorylcholine and diacylglycerol (DAG) in both intact monocytes and cell-free assays. Furthermore, the increase in PC turnover induced by CSF-1 was sensitive to pertussis toxin. The results also demonstrate that the induction of Na+ influx by CSF-1 is inhibited by the protein kinase C inhibitors staurosporine and the isoquinoline derivative H7, but not by HA1004.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Colony-stimulating factor 1 activates protein kinase C in human monocytes. 219 73

We have examined the ability of bryostatin 1 (bryo), an activator of protein kinase C, to induce differentiation of chronic myelogenous leukemia (CML) cells obtained from peripheral blood. Bryo induced a prompt and persistent macrophage-like differentiation, as evidenced by functional, morphological, and immunological criteria. Differentiated cells remained viable for at least 21 days with little change in cell number. CML cell cultures treated in semisolid medium with bryo showed diffuse infiltration with single macrophages, as well as discrete macrophage, mixed, and granulocytic colonies. Supernatants of suspension cultures of bryo-treated CML cells contained granulocyte-macrophage colony-stimulating factor (GM-CSF) by enzyme-linked immunosorbent assay. Furthermore, colony formation could be significantly inhibited by the addition of antibodies to GM-CSF. Prolonged liquid culture of CML cells in bryo reduced colony-forming unit, granulocyte-macrophage content. Bryo-induced differentiation was associated with a decrease in lactoferrin, a marker of granulocyte differentiation, and an increase in both c-fms and interleukin-1 beta RNA, both of which are expressed by monocytes/macrophages. These data demonstrate that bryostatin 1 is capable of inducing macrophage-like differentiation in maturing CML cells. Furthermore, bryostatin induces secretion of GM-CSF by such cells in suspension and semisolid medium and also promotes clonal extinction of granulocyte-macrophage progenitors. Bryostatin may be a possible therapeutic agent for CML.
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PMID:Differentiation and growth modulation of chronic myelogenous leukemia cells by bryostatin. 238 56

Granulocyte-monocyte colony-stimulating factor (GM-CSF) is an important hematopoietic growth factor. Mesenchymal cells produce abundant GM-CSF in response to tumor necrosis factor alpha (TNF). We wished to determine (1) what cellular pathways enhanced levels of GM-CSF mRNA, and (2) if TNF used any of these pathways. Modulation in levels of GM-CSF mRNA in human fibroblasts (WI-38) was studied by using Northern blot analysis. Markedly increased levels of GM-CSF mRNA occurred in these cells after exposure to sodium fluoride (NaF) and the effect of NaF was slightly enhanced by aluminum chloride; these results suggest that accumulation of GM-CSF mRNA can occur by activating a G-binding protein. Stimulators of protein kinase C dramatically increased levels of GM-CSF mRNA; however, blockade of protein kinase C activity did not attenuate accumulation of GM-CSF mRNA stimulated by TNF and NaF. Exposure to ouabain increased levels of GM-CSF mRNA and this effect was prominently enhanced in the presence of low concentrations of extracellular K+ and was almost abolished in high concentrations of extracellular K+. A monovalent ionophore (monensin) also increased levels of GM-CSF mRNA. Both ouabain and monensin can increase intracellular Ca++ concentration (Cai++) through Na+-Ca++ exchange. A calcium channel blocker (diltiazem) blocked the increased levels of GM-CSF mRNA mediated by ouabain, but could not block the stimulation mediated by TNF alpha. Ca++ ionophores also increased levels of GM-CSF mRNA and rapidly increased levels of Cai++. TNF did not increase Cai++ and, moreover, was able to stimulate accumulation of GM-CSF mRNA in the absence of extracellular Ca++. Taken together, we have found that several different cellular pathways can lead to prominent accumulation of GM-CSF mRNA in mesenchymal cells including (1) activation of protein kinase C, (2) increase in Cai++, and (3) stimulation of G-binding protein. Our studies show that TNF appears to increase levels of GM-CSF mRNA independent of protein kinase C activity or levels of Cai++.
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PMID:Granulocyte-macrophage colony-stimulating factor: signals for its mRNA accumulation. 250 5


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