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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)

This study investigates the in vivo glucose utilization of various immune-competent cells after an intra-arterial injection of a nonlethal dose (30 micrograms/kg body weight) of murine recombinant granulocyte-macrophage colony-stimulating factor (GM-CSF). Injection of GM-CSF resulted in a rapid but transient reduction in the number of circulating neutrophils. After 20 min the number of neutrophils returned to normal values, and by 4 h it was about 80% greater than in time-matched saline-injected controls. One hour after the treatment, neutrophils were accumulated in the livers of GM-CSF-injected animals but not in control livers. In vivo glucose utilization by circulating neutrophils and mononuclear cells and various liver cell types was investigated by combining the 2-deoxyglucose tracer technique with cell isolation procedures. GM-CSF increased the in vivo glucose utilization of circulating and infiltrating neutrophils by more than 200%. Glucose utilization by circulating mononuclear cells was also doubled. After GM-CSF injection, glucose utilization by Kupffer cells was increased by 130% and by hepatic endothelial cells was increased by 60%. Indomethacin pretreatment blunted the hyperglycemia caused by GM-CSF injection; however, it did not inhibit the increased glucose utilization by immune-competent cells. This suggests that the effect of GM-CSF on glucose utilization by these cells is not mediated by prostanoids and is at least partially independent of the mass action of elevated glucose concentration. These findings indicate that GM-CSF may be an important member of the cytokine cascade that mediates the acute in vivo metabolic response of immune-competent cells in sepsis or endotoxemia.
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PMID:In vivo metabolic response of hepatic nonparenchymal cells and leukocytes to granulocyte-macrophage colony-stimulating factor. 156 99

We have previously demonstrated that granulocyte-macrophage colony-stimulating factor (GM-CSF) receptors are composed of at least two molecules of 80 and 135 kDa, which were denoted alpha- and beta-chains, respectively [Chiba, S., Shibuya, K., Piao, Y.-F., Tojo, A., Sasaki, N., Matsuki, S., Miyagawa, K., Miyazono, K. & Takaku, F. (1990) Cell Regul. 1, 327-335]. In this paper, we describe an investigation of the biochemical disparity noted between the alpha- and beta-chains of GM-CSF receptors using proteolytic and deglycosidic enzymes, and further demonstrate the potential importance of carbohydrate structures of the GM-CSF receptors using different lectins and glycoprotein synthesis inhibitors. Cross-linked alpha- and beta-chains with 125I-GM-CSF were digested by Staphylococcus aureus V8 protease and gave a different pattern. Furthermore, the size of the alpha-chain was reduced by 25 kDa by the removal of the N-linked oligosaccharides with peptidase: N-glycosidase F treatment, whereas that of the beta-chain remained unmodified by the enzyme. These results suggest that the alpha-chain of GM-CSF receptors agrees with the recently cloned low-affinity GM-CSF receptor [Gearing, D.P., King, J.A., Gough, N. M. & Nicola, N.A. (1989) EMBO J. 8, 3667-3676] having approximately 30% N-linked oligosaccharides and is biochemically different from the alpha beta-chain. By analyses using lectins, some of the oligosaccharides in the alpha-chain seem to be the complex-type and/or hybrid-type, because wheat germ agglutinin and leukoagglutinating phytohemagglutinin inhibited both GM-CSF-induced proliferation and GM-CSF binding to its receptors. Further analyses using glycoprotein synthesis inhibitors showed that N-linked processing of the alpha-chain, especially glucose removal by glucosidase I and II (whose activities are inhibited by deoxynojirimycin), appeared to be required for the expression onto the cell surface although the beta-chain expression was little affected by their inhibitors. Thus the beta-chain, probably located near the alpha-chain on the cell surface, was associated with a high-affinity class of GM-CSF receptors.
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PMID:Structural and functional analyses of glycosylation on the distinct molecules of human GM-CSF receptors. 182 62

The level of granulocyte-macrophage colony-stimulating factor (GM-CSF) in the cerebrospinal fluid from 14 infants and children with meningitis and 6 patients who suffered other diseases besides meningitis was measured by our sensitive enzyme linked immunosorbent assay for GM-CSF. The minimal detection level of GM-CSF was 40 pg/ml. Six of 9 patients (67%) with aseptic meningitis had detectable GM-CSF in cerebrospinal fluid and the concentrations of GM-CSF ranged from 49 to 114 pg/ml (mean 72 pg/ml), whereas none of 5 patients with bacterial meningitis or 6 patients with other diseases besides meningitis had detectable GM-CSF levels. There was no clear correlation between the GM-CSF levels in cerebrospinal fluid and the leukocyte count in either peripheral blood or cerebrospinal fluid, or the concentration of protein or glucose in cerebrospinal fluid.
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PMID:Detection of granulocyte-macrophage colony-stimulating factor in cerebrospinal fluid of patients with aseptic meningitis. 195 Mar 60

We studied the effects of recombinant human granulocyte-macrophage colony-stimulating factor (GM-CSFrh) on the internal pH of granulocytes using the fluorescent probe BCECF. GM-CSFrh did not directly alter the resting pH of granulocytes isolated from the peripheral blood; however, when the cells were preincubated for 90 minutes with the growth factor and then activated with the chemotactic peptide N-formyl met leu phe (fMLP), they exhibited both an acceleration in the initial rate of acidification and a marked delay in realkalinization. The kinetic changes both in initial acidification and in subsequent realkalinization induced by GM-CSFrh priming were not prevented by protein synthesis inhibitors and were observed in granulocytes harvested from patients with both sex-linked and autosomal recessive chronic granulomatous disease (CGD). By directly quantitating H+ ion secretion, by monitoring the effects of sodium repletion on intracellular pH, and through use of the sodium channel inhibitors amiloride and dimethyl amiloride and the Na+/K+-ATPase inhibitor ouabain, we showed that the altered kinetics of intracellular acidification and alkalinization following fMLP stimulation of GM-CSFrh-primed granulocytes could not be accounted for by changes in transmembrane proton exportation regulated by the Na+/H+ antiport channel. Although the initial acidification following fMLP was abrogated by 2-deoxy-D-glucose in both GM-CSFrh-pretreated and GM-CSFrh-untreated granulocytes, retardation of the subsequent phase of alkalinization was observed in GM-CSFrh-primed cells even after inhibition of both glycolytic and mitochondrial metabolism. Our data indicate that the increased cytosolic acidification following fMLP stimulation in granulocytes "primed" with GM-CSFrh does not result from disordered proton excretion but instead from increased release of intracellular free acid which is only partially coupled to glucose catabolism or to the generation of superoxide anion (O2-).
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PMID:Effects of recombinant human granulocyte-macrophage colony-stimulating factor on intracellular pH in mature granulocytes. 284 87

Glucose is fundamental to the metabolism and survival of mammalian cells, and its passage across cell membranes is mediated by a family of transport proteins (glucose transporters) located at the cell membrane. We studied the regulation of glucose transport by granulocyte-macrophage colony-stimulating factor (GM-CSF), a hemopoietin that functions in regulating the proliferation, differentiation, maturation and survival of cells of the host defense system. The receptor for GM-CSF is composed of an alpha and beta subunit, and the alpha-beta complex binds GM-CSF with high affinity whereas the isolated alpha subunit binds GM-CSF with low affinity. Using Xenopus laevis oocytes expressing the human GM-CSF receptor alpha subunit, we provided direct evidence indicating that the isolated alpha subunit signals for increased glucose uptake in a phosphorylation-independent manner. We extended these studies to human neutrophils and HL-60 cells and found that signaling for hexose uptake also occurs in a phosphorylation-independent manner in cells expressing the high-affinity GM-CSF receptor. Since the glucose transporters are multifunctional transport proteins, the findings regarding GM-CSF regulation of cellular glucose uptake may have wide import relative to CSF regulation of molecular transport in target cells.
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PMID:The colony-stimulating factors and molecular transport. 769 70

While the primary targets for granulocyte-macrophage colony-stimulating factor (GM-CSF) are hematopoietic precursors and mature myeloid cells, GM-CSF receptors (GMR) are also found on normal tissues including placenta, endothelium, and oligodendrocytes as well as certain malignant cells. The function of GMR in these nonhematopoietic cells is unknown. We studied the function of GMR in human melanoma cell lines. Six of seven cell lines tested (clones 1-5 and 3.44 of SK-MEL-131, SK-MEL-188, SK-MEL-23, SK-MEL-22, and SK-MEL-22A) expressed mRNA encoding the membrane-bound and soluble isoforms of the alpha subunit of the GMR. Melanoma cell lines in early stages of differentiation expressed the largest quantities of alpha-subunit mRNA. Although five of these lines expressed trace levels of mRNA encoding the beta subunit of the GMR, Scatchard analysis of equilibrium binding data derived from three of the cell lines showed that they expressed only low-affinity GMR. Clones 3.44 and 1-5 of SK-MEL-131, and SK-MEL-188 cells expressed receptors with a dissociation constant (kd) for GM-CSF in the following ranges: 0.7 to 0.8, 1.2 to 1.8, and 0.4 to 0.8 nmol/L, respectively. GM-CSF stimulated glucose uptake in four of the melanoma cell lines expressing the alpha subunit, presumably through facilitative glucose transporters, as uptake was blocked by cytochalasin B but not cytochalasin E. Stimulation of glucose uptake was transient, with maximum stimulation occurring at approximately 30 minutes in the presence of 1 nmol/L GM-CSF. GM-CSF stimulated glucose uptake 1.4- to 2.0-fold but did not stimulate cell proliferation. These results suggest a metabolic role for the low-affinity GMR in melanoma cell lines and indicate that the alpha subunit of the GMR can signal for increased glucose uptake in nonhematopoietic tumor cells.
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PMID:Granulocyte-macrophage colony-stimulating factor signals for increased glucose uptake in human melanoma cells. 784 18

The receptor for granulocyte-macrophage colony-stimulating factor (GM-CSF) is composed of an alpha and beta subunit, which together form the high-affinity receptor. The alpha subunit by itself binds ligand at low affinity, whereas the isolated beta subunit does not bind GM-CSF. It is generally believed that the high-affinity receptor is responsible for the multiple functions of GM-CSF and that the isolated alpha subunit (GMR alpha) does not transduce a signal. Xenopus laevis oocytes injected with RNA encoding human GMR alpha expressed up to 10(10) low-affinity sites for GM-CSF (Kd = 6 nM). GM-CSF binding to the alpha subunit expressed in Xenopus oocytes caused activation of 2-deoxyglucose transport through endogenous glucose transporters. 2-Deoxyglucose transport was stimulated by similar low concentrations of GM-CSF in HL-60 leukemia cells as well as normal human neutrophils and Xenopus oocytes expressing GMR alpha. Engagement of the isolated alpha subunit in oocytes did not lead to protein phosphorylation or tyrosine phosphorylation of mitogen-activated protein kinase (MAP kinase). Staurosporin and genistein inhibited GM-CSF-induced tyrosine phosphorylation of MAP kinase in human neutrophils and HL-60 cells without affecting GM-CSF-stimulated uptake of 2-deoxyglucose. These results provide direct evidence that the isolated alpha subunit signals for hexose transport and can do so without engagement of the kinase cascade. Our data also indicate that signaling for hexose uptake may occur in a phosphorylation-independent manner in cells expressing the high-affinity GM-CSF receptor.
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PMID:The alpha subunit of the human granulocyte-macrophage colony-stimulating factor receptor signals for glucose transport via a phosphorylation-independent pathway. 814 50

Mycoloyl glycolipids cause granulomas in the lungs, liver, and spleen of mice, but the mechanism is not fully understood. To understand the role of macrophage chemotactic factors (MCFs) in granuloma formation, we prepared various mycoloyl glycolipids with different carbohydrate moieties: trehalose dimycolate (TDM), glucose mycolate (GM), mannose mycolate (MM), and fructose mycolate (FM) from Rhodococcus ruber, and examined the relationship between their MCF induction in peritoneal macrophages and the extent of granuloma formation. The molecular mass of each glycolipid was confirmed by fast-atom-bombardment mass-spectrometry. TDM or GM caused granulomas in the lungs, spleen, and liver of ICR mice, but MM and FM did not. The culture supernatant of peritoneal macrophages stimulated with TDM or GM increased macrophage migration, whereas MM and FM had no chemotactic activity. The activity of interleukin-1 (IL-1) in the supernatant was increased equally by each glycolipid and was therefore not related to chemotaxis. Tumor necrosis factor-alpha (TNF-alpha) and granulocyte-macrophage colony-stimulating factor (GM-CSF) were not detected in the four supernatants. The TDM-induced MCF was heat-stable, trypsin-labile, and undialyzable. Furthermore, we separated two MCF active fractions from the supernatant of TDM-stimulated macrophages by gel filtration. These factors acted on macrophages but not on neutrophils. Our results suggested that macrophages recognize the sugar moieties of mycoloyl glycolipids and may, in response, generate a MCF that may play an important role in the macrophage or monocyte recruitment which is essential prior to granuloma formation.
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PMID:Relationship between induction of macrophage chemotactic factors and formation of granulomas caused by mycoloyl glycolipids from Rhodococcus ruber (Nocardia rubra). 890 34

Activation of human peripheral blood neutrophils by pathogens or by phorbol myristate acetate (PMA), fMLP, or myeloid growth factors generates a respiratory burst in which superoxide production plays an important role in killing invading microorganisms. Although the increased energy demands of activated neutrophils would be expected to be associated with increased glucose uptake and utilization, previous studies have shown that PMA inhibits 2-deoxyglucose (2-DOG) uptake. In this study, we show that PMA activation of neutrophils, isolated by methods not involving hypotonic lysis, increases the rate of 2-DOG uptake and results in a 1.6-fold to 2.1-fold increase in transporter affinity for glucose without changing Vmax. Increased transporter affinity in response to PMA was also observed with 3-O-methyglucose, which is not phosphorylated, and inclusion of glucose in the activation medium further increased respiratory burst activity. Increased 2-DOG uptake and increased transporter affinity for glucose were also observed with the peptide activator, fMLP, and with granulocyte-macrophage colony-stimulating factor (GM-CSF). The protein kinase C (PKC) inhibitor, calphostin C, and the tyrosine kinase inhibitor, genistein, inhibited both PMA- and fMLP-stimulated 2-DOG uptake. In contrast, genistein inhibited fMLP-induced superoxide production, but had little effect on the PMA-induced response, while staurosporine differentially inhibited PMA-induced superoxide production. These results show that neutrophil activation involves increased glucose transport and intrinsic activation of glucose transporter molecules. Both tyrosine kinases and PKC are implicated in the activation process.
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PMID:Acute regulation of glucose transport after activation of human peripheral blood neutrophils by phorbol myristate acetate, fMLP, and granulocyte-macrophage colony-stimulating factor. 942 21

Although serum concentrations of ascorbic acid seldom exceed 150 micromol/L, mature neutrophils and mononuclear phagocytes accumulate millimolar concentrations of vitamin C. Relatively little is known about the mechanisms regulating this process. The colony-stimulating factors (CSFs), which are central modulators of the production, maturation, and function of human granulocytes and mononuclear phagocytes, are known to stimulate increased glucose uptake in target cells. We show here that vitamin C uptake in neutrophils, monocytes, and a neutrophilic HL-60 cell line is enhanced by the CSFs. Hexose uptake studies and competition analyses showed that dehydroascorbic acid is taken up by these cells through facilitative glucose transporters. Human monocytes were found to have a greater capacity to take up dehydroascorbic acid than neutrophils, related to more facilitative glucose transporters on the monocyte cell membrane. Ascorbic acid was not transported by these myeloid cells, indicating that they do not express a sodium-ascorbate cotransporter. Granulocyte (G)- and granulocyte-macrophage colony-stimulating factor (GM-CSF) stimulated increased uptake of vitamin C in human neutrophils, monocytes, and HL-60 neutrophils. In HL-60 neutrophils, GM-CSF increased both the transport of dehydroascorbic acid and the intracellular accumulation of ascorbic acid. The increase in transport was related to a decrease in Km for transport of dehydroascorbic acid without a change in Vmax. Increased ascorbic acid accumulation was a secondary effect of increased transport. Triggering the neutrophils with the peptide fMetLeuPhe led to enhanced vitamin C uptake by increasing the oxidation of ascorbic acid to the transportable moiety dehydroascorbic acid, and this effect was increased by priming the cells with GM-CSF. Thus, the CSFs act at least at two distinct functional loci to increase cellular vitamin C uptake: conversion of ascorbic acid to dehydroascorbic acid by enhanced oxidation in the pericellular milieu and increased transport of DHA through the facilitative glucose transporters at the cell membrane. These results link the regulated uptake of vitamin C in human host defense cells to the action of CSFs.
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PMID:Colony-stimulating factors signal for increased transport of vitamin C in human host defense cells. 951 55


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