Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Monocyte chemotactic and activating factor (MCAF) is the most potent cytokine that activates basophils to release histamine. The response of human basophils to either simultaneous or sequential addition of the chemokines RANTES, macrophage inflammatory protein (MIP)-1 alpha, MIP-1 beta, platelet factor (PF)4, connective tissue activating peptide III (CTAP-III), interleukin (IL)-8, and inflammatory protein (IP)-10 on MCAF-induced histamine release was studied. Simultaneous addition of MCAF and any of the chemokines studied evoked an augmented response as measured by histamine release, whereas preincubation of leukocytes or purified basophils (80%) with these chemokines decreased MCAF-induced histamine release in a dose-dependent manner. Histamine release by anti-IgE remained unchanged. When tested at 5 x 10(-9) mol/L, the decrease in histamine release by RANTES was 69.2% +/- 3.5%, by MIP-1 alpha 48.8% +/- 3.1%, by MIP-1 beta 42.9% +/- 3.1%, by PF4 56.5% +/- 2.9%, by IL-8 41.2% +/- 2.2, by CTAP III 27% +/- 4.4%, and by IP-10 15.3% +/- 2.6%. The peak inhibition of histamine release by the chemokines was reached within 10 minutes of preincubation with basophils and remained unchanged thereafter. Washing basophils after preincubation with chemokines abolished the inhibition, with the exception of desensitization by low concentrations of MCAF. With the exclusion of MCAF and RANTES, none of the chemokines (at the concentration range of 5 x 10(-8) to 5 x 10(-11)) induced significant (> 10% above spontaneous) histamine release from basophils. Preincubation of basophils with C5a (5 x 10(-10) mol/L) did not affect histamine release, whereas preincubation with granulocyte-macrophage colony-stimulating factor (10 ng/ml) or IL-5 (10 ng/ml) enhanced MCAF-induced histamine release by 121.8% +/- 10.1% and 108% +/- 10.8%, respectively. We have therefore characterized RANTES, MIP-1 alpha, MIP-1 beta, CTAP III, PF4, IL-8, and IP-10 as inhibitors of MCAF-induced histamine release. Although the results are consistent with receptor blockade, the alpha and beta chemokines appear to interact with separate receptors linked to G proteins; thus, a mechanism of receptor class desensitization is proposed. Interaction of this group of cytokines at the site of allergic inflammation may modulate a function of basophils to initiate, augment, or inhibit histamine release.
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PMID:Chemokines of the alpha, beta-subclass inhibit human basophils' responsiveness to monocyte chemotactic and activating factor/monocyte chemoattractant protein-1. 753 29

The immunoregulatory C-C chemokine, macrophage inflammatory protein-1 alpha (MIP-1 alpha) has suppressive activity on proliferation of stem cells and early subsets of myeloid progenitor cells. A receptor for C-C chemokines that binds MIP-1 alpha has been characterized, cloned, and shown to be related structurally to neuropeptide receptors that couple through G-proteins to phospholipase-C and adenyl cyclase. Yet, very little information on the intracellular mechanisms of action of MIP-1 alpha is available. We show here that the human factor-dependent cell line M07e is responsive to the cell cycle-suppressive effects of MIP-1 alpha, has specific membrane-binding sites for MIP-1 alpha, and that treatment of these cells with this chemokine increases the phosphatidylcholine (PC) and phosphocholine turnover rates in cells that are synergistically stimulated by the combination of granulocyte-macrophage colony-stimulating factor and steel factor but not these factors acting singly. Additional, MIP-1 alpha treatment induces a dose- and time-dependent increase in intracellular cAMP levels in M07e cells. Both exogenous PC and dibutyryl cAMP were found to suppress the proliferation of M07e colony-forming cells to a level similar to that of MIP-1 alpha, further implicating cAMP and PC metabolism in MIP-1 alpha-induced M07e suppression. RANTES, a related chemokine, with weak or incomplete binding to the cloned MIP-1 alpha receptor, did not suppress M07e colony-forming cells, nor did it increase intracellular cAMP levels, but it did enhance growth factor-induced PC turnover, further supporting the involvement of cAMP in MIP-1 alpha suppression while demonstrating that increased PC turnover alone is not sufficient for suppression. These findings support the idea that the human MIP-1 alpha receptor is coupled to phospholipid and cAMP metabolism in a manner similar to other 7-transmembrane, G-protein-linked receptors and suggest that a phosphatidylcholine hydrolytic cycle and an associated increase in cAMP are part of the mechanisms of action of MIP-1 alpha.
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PMID:Macrophage inflammatory protein-1 alpha enhances growth factor-stimulated phosphatidylcholine metabolism and increases cAMP levels in the human growth factor-dependent cell line M07e, events associated with growth suppression. 753 66

In the dermal sites of atopic skin, eosinophil (Eo) granule protein or more rarely intact Eos represent a characteristic histological feature. We addressed the question of whether lesional scales of patients with various eosinophilic skin disorders contain Eo attractant and tried to characterize it biochemically. In scales of a patient with drug reaction, heparin-binding Eo attractants could be identified. High-performance liquid chromatographic analyses together with specific ELISA and Western blot analyses revealed identity with RANTES. No other heparin-binding Eo chemotaxin could be identified. HPLC analysis of pooled lesional scale extracts of patients with atopic dermatitis showed fractions containing only weak heparin-binding Eo-chemotactic activity, which, however, showed RANTES immunoreactivity. In experiments to elucidate the putative cellular origin of Eo-attracting chemokines in human skin we investigated supernatants of atopic skin we investigated supernatants of atopic skin-derived T lymphocytes as well as supernatants of stimulated dermal fibroblasts for Eo-chemotactic factors. Unexpectedly, we did not find any heparin-bound Eo attractants in supernatants of stimulated cultured atopic skin-derived T lymphocyte clones, whereas fibroblasts produced RANTES as well as granulocyte-macrophage colony-stimulating factor. Therefore, fibroblasts are likely source of eosinophil attractant cells, which could contribute to the Eo infiltrate. Selectivity of the infiltrate might come from selective induction of RANTES and/or induction of other as yet unidentified Eo-specific chemokines.
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PMID:Role of eosinophil-chemotactic C-C chemokines in cutaneous inflammation. 855 57

Using adenoviral-mediated gene transfer techniques, the murine granulocyte-macrophage colony-stimulating factor (GM-CSF) transgene is efficiently targeted to and highly expressed by the respiratory epithelium of rat lung. This lung tissue-directed expression of GM-CSF induces accumulation of both eosinophils and macrophages at early stages and an irreversible fibrotic reaction at later stages. These tissue responses to GM-CSF appear to be distinct from those induced by other proinflammatory cytokines, interleukin (IL)-5, IL-6, macrophage inflammatory protein-2 (MIP-2), or RANTES overexpressed in the lung. These findings clearly demonstrate that GM-CSF is more than a hematopoietic cytokine in the lung and may play a pivotal role in the multiple pathological processes underlying numerous respiratory illnesses, including asthma. In this overview, the differences in tissue responses induced by GM-CSF and other individual cytokines are highlighted. In addition, the mechanisms by which GM-CSF and other individual cytokines are highlighted. In addition, the mechanisms by which GM-CSF contributes to the development of eosinophilia, macrophage granuloma, and fibrosis are discussed in conjunction with the recent findings from us and others.
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PMID:Gene transfer for cytokine functional studies in the lung: the multifunctional role of GM-CSF in pulmonary inflammation. 861 93

Disparate findings have been reported as to whether human immunodeficiency virus (HIV) affects cytokine production by macrophages (MA). We investigated production of different cytokines and of macrophage inflammatory protein (MIP)-1alpha by HIV-1Ba-L- or HIV-1Ada-infected blood-derived MA. Relative to controls, only MIP-1alpha levels increased twofold to > 10-fold in supernatants 2 to 3 weeks postinfection (PI), at the time of maximum virus production; levels of the other chemokines (RANTES, interleukin (IL)-8) and cytokines (IL-1alpha, IL-3, IL-6, granulocyte-macrophage colony-stimulating factor (GM-CSF), G-CSF, tumor necrosis factor (TNF)-alpha, transforming growth factor (TGF)-beta1) investigated were not affected. MIP-1alpha mRNA signal assessed by reverse transcriptase-polymerase chain reaction (RT-PCR) was, however, only occasionally greater in cells from infected cultures relative to controls. MIP-1alpha levels in supernatants remained in the same range as in control cultures when more than 10 mmol/L Zidovudine was added 24 hours PI, which indicates involvement of virus replication in the effect. Anti-MIP-1alpha antibody labeling identified a 10% to 25% subset of MA, strongly expressing HLA-DR and CD4, and also stained by anti-IL-6 and anti-TNF-alpha antibodies. Two weeks PI, dual staining showed that the majority of the 5% to 20% cells that were p24+ belonged to the MIP-1alpha+ population, which may define a MA subset capable to better sustain HIV replication. MIP-1alpha induced by HIV replication in MA might play a role in the pathophysiology of HIV infection; in impaired hematopoiesis; or as a CD4+ and CD8+ lymphocyte chemoattractant, by recruiting either or both HIV-susceptible and cytotoxic T lymphocytes to virus replication sites.
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PMID:Macrophage inflammatory protein-1alpha is induced by human immunodeficiency virus infection of monocyte-derived macrophages. 863 52

Human peripheral blood leukocytes (hPBL) are a rich source of natural leukocyte interferon (IFN-alpha) when treated with Sendai virus. Sendai virus treatment of hPBL will also result in significant production of several chemokines and cytokines such as macrophage inflammatory protein-1alpha (MIP-1alpha), MIP-1beta, RANTES, tumor necrosis factor-alpha (TNF-alpha), interleukin-6 (IL-6), and IL-8, in a time-dependent way. A significant amount of MCP-1 is constitutively produced in overnight culture of leukocytes. The most abundant cytokine is IFN-alpha, which is induced to its maximum level approximately 11-15 h after addition of Sendai virus. The amount of IFN-alpha induced at 15 h after Sendai virus treatment is more than 16-fold higher than those of MIP-1alpha, MIP-1beta, and RANTES. IFN-alpha is also induced more than 60-fold higher than TNF-alpha and IL-8. The amount of IL-6 induced is approximately 400-fold less than IFN-alpha. Limited amounts of other cytokines such as IL-1alpha, IL-1beta, macrophage colony-stimulating factor, TNF-beta, and IFN-gamma are also induced in Sendai virus-treated hPBL. No measurable amount of granulocyte-macrophage colony-stimulating factor, granulocyte colony-stimulating factor, leukemia inhibitory factor, IL-2, IL-3, IL-4, IL-5, IL-7, IL-10, IL-11, or IL-12 was induced in the supernatant of Sendai virus-treated hPBL.
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PMID:Cytokines induced by Sendai virus in human peripheral blood leukocytes. 869 16

Colony-stimulating factors are growth factors which induce differentiation of the hematopoietic stem cells. Granulocyte-macrophage colony-stimulating factor (GM-CSF) stimulates proliferation and improves functions of neutrophils and monocyte/macrophages. A macrophage submesothelial stratum has been suggested to constitute the first line of peritoneal defense. We have tested whether intraperitoneally administered GM-CSF could increase the number and activation of peritoneal macrophages in peritoneal dialysis patients. Eight stable patients injected 17 micrograms of GM-CSF in each of their four daily CAPD bags over three days. The clinical status, the peritoneal effluent and peripheral blood cell count, membrane receptor expression, phagocytosis activity and cytokine levels were monitored at days 0, 1, 3, 10 and 28. GM-CSF administration caused a large increase in peritoneal macrophage number (89-fold mean increase after 72 hr), returning to baseline seven days after withdrawal. GM-CSF triggered an increase in the expression of CD11b/CD18 (CR3) and its counterreceptor CD54, indicating the cellular progression into a more activated state. Both the number of phagocytic cells (55 +/- 15% to 83 +/- 10%, P < 0.05) and the phagocytic index (137 +/- 29 to 255 +/- 61, P < 0.01) were also augmented. Peritoneal effluent cytokine-chemokine levels demonstrated an increase in IL-6 and MCP-1 levels while TNF-alpha, IL-1, IL-8, MIP-1 alpha and RANTES were not significantly altered. GM-CSF administration did not affect the peritoneal transport of water or solutes. Minor side-effects were registered in two patients. In conclusion, intraperitoneal GM-CSF causes a marked and transient recruitment of primed macrophages into the peritoneum without inducing inflammatory parameters. GM-CSF should improve the peritoneal defensive capacity through potentiation of the effector functions of resident and newly-recruited macrophages.
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PMID:Immunomodulation of peritoneal macrophages by granulocyte-macrophage colony-stimulating factor in humans. 894 92

Bronchial epithelial cells are primary sites of airway viral infection, and these cells may play an important role in the pathogenesis of respiratory diseases. It has recently been reported that bronchial epithelial cells express RANTES. RANTES attracts monocytes, T cells, eosinophils, and basophils; it can also activate eosinophils. To determine whether viral infection induces RANTES expression on bronchial epithelial cells, we infected a bronchial epithelial cell line, NCI-H292, with influenza virus A (H3N2). We then examined the concentration of RANTES in the culture medium of infected cells by ELISA and assessed expression of the gene for RANTES by the reverse-transcriptase polymerase chain reaction. We also investigated the concentrations of IL-6, IL-8, and granulocyte-macrophage colony-stimulating factor in the medium of infected cells, because some virus infections have been reported to induce expression of these cytokines on bronchial epithelial cells, but there are few data concerning influenza virus infection. Small amounts of IL-6 and IL-8 were detected in the medium of uninfected cells. RANTES was not detected in the medium of uninfected cells. After influenza virus infection, significant amounts of IL-6, IL-8, and RANTES were released into the culture medium of infected cells, and RANTES messenger RNA was detected from infected cells. Granulocyte-macrophage colony-stimulating factor was not detected in the medium of uninfected and infected cells. These results suggest that influenza virus infection may stimulate production of IL-6, IL-8, and RANTES from human bronchial epithelial cells and that these cytokines may contribute to the pathogenesis of airway inflammatory diseases caused by influenza virus infection.
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PMID:Expression of IL-6, IL-8, and RANTES on human bronchial epithelial cells, NCI-H292, induced by influenza virus A. 897 9

Migration of eosinophils through the basement membrane barrier is an important step for their infiltration into tissues. To investigate the mechanism of transmigration, we used a chamber fitted with a Matrigel membrane as a model of the basement membrane. In this model, eosinophils treated with cytokines or chemotactic factors alone did not transmigrate from the upper to the lower chamber. However, platelet-activating factor (PAF) strongly induced transmigration of eosinophils stimulated by interleukin (IL)-5, indicating that both a cytokine and a chemotactic factor are required for eosinophil migration through Matrigel. Granulocyte-macrophage colony-stimulating factor (GM-CSF) and IL-3 also stimulated eosinophil transmigration in the presence of PAF. Of seven eosinophil chemotactic factors tested, leukotriene B4, C5a, RANTES, macrophage inflammatory protein-1alpha, and IL-8 did not induce significant eosinophil transmigration. Only PAF and eotaxin induced transmigration of eosinophils through Matrigel in the presence of IL-5; PAF was more potent than eotaxin at the optimal concentration. In contrast, PAF, eotaxin, and RANTES all potently induced migration of eosinophils through bare membrane in the absence of IL-5. Finally, eosinophil migration through Matrigel was markedly reduced by a combination of anti-CD18 and anti-CD29 monoclonal antibodies, suggesting that it is mediated by beta1- and beta2-integrin adhesion molecules. Our findings demonstrate that eosinophil transmigration through a basement membrane model requires both a specific chemoattractant, such as PAF, and an eosinophil-activating cytokine, such as IL-5. This synergistic effect is likely important in the tissue accumulation of activated eosinophils in allergic and other eosinophil-associated diseases.
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PMID:Transmigration of eosinophils through basement membrane components in vitro: synergistic effects of platelet-activating factor and eosinophil-active cytokines. 911 57

There is evidence that eosinophils have an important role in the pathogenesis of allergy and asthma. These cells are regulated by two classes of polypeptides, the colony-stimulating factors, such as granulocyte-macrophage colony-stimulating factor (GM-CSF), and the chemokines, such as RANTES and eotaxin. GM-CSF is involved in the production, survival, and functional activation of eosinophils. RANTES and eotaxin regulate the migration of eosinophils to inflammatory sites, but any effect of these chemokines on eosinophil survival is not known. In this study we demonstrate that although GM-CSF promoted eosinophil survival, the specific GM-CSF analogue E21R induced apoptosis of eosinophils. Apoptosis was observed with unstimulated as well as with chemokine (RANTES and eotaxin)-activated eosinophils. Neither RANTES nor eotaxin supported eosinophil survival, and a RANTES antagonist did not affect either cell survival or apoptosis. E21R also induced apoptosis of eosinophils from asthmatic patients. These findings suggest that the GM-CSF receptor may actively control the death as well as the survival of eosinophils, and thus precisely regulate their numbers and activities. Our data also indicate that chemokines are not involved in regulating the lifespan of eosinophils. The introduction of the GM-CSF analogue E21R may offer a novel therapy in inflammatory diseases associated with eosinophil infiltration of different etiologies.
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PMID:The GM-CSF analogue E21R induces apoptosis of normal and activated eosinophils. 937 86


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