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

Dendritic cells (DCs) are professional antigen-presenting cells (APCs) that can be used for vaccination purposes, to induce a specific T-cell response in vivo against melanoma-associated antigens. We have shown that the sequential use of early-acting hematopoietic growth factors, stem cell factor, IL-3 and IL-6, followed by differentiation with IL-4 and granulocyte-macrophage colony-stimulating factor allows the in vitro generation of large numbers of immature DCs from CD34(+) peripheral blood progenitor cells. Maturation to interdigitating DCs could specifically be induced within 24 hr by addition of TNF-alpha. Here, we report on a phase I clinical vaccination trial in melanoma patients using peptide-pulsed DCs. Fourteen HLA-A1(+) or HLA-A2(+) patients received at least 4 i.v. infusions of 5 x 10(6) to 5 x 10(7) DCs pulsed with a pool of peptides including either MAGE-1, MAGE-3 (HLA-A1) or Melan-A, gp100, tyrosinase (HLA-A2), depending on the HLA haplotype. A total of 83 vaccinations were performed. Clinical side effects were mild and consisted of low-grade fever (WHO grade I-II). Clinical and immunological responses consisted of anti-tumor responses in 2 patients, increased melanoma peptide-specific delayed-type hypersensitivity reactions in 4 patients, significant expansion of Melan-A- and gp100-specific cytotoxic T lymphocytes in the peripheral blood lymphocytes of 1 patient after vaccination and development of vitiligo in another HLA-A2(+) patient. Our data indicate that the vaccination of peptide-pulsed DCs is capable of inducing clinical and systemic tumor-specific immune responses without provoking major side effects.
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PMID:Phase I study in melanoma patients of a vaccine with peptide-pulsed dendritic cells generated in vitro from CD34(+) hematopoietic progenitor cells. 1076 Aug 27

Pulmonary alveolar proteinosis (PAP) is an idiopathic lung disease in which the alveolar spaces are filled with surfactant. Recently, it has been proposed that PAP is caused by deficiency of granulocyte-macrophage colony-stimulating factor (GM-CSF) because GM-CSF-knockout mice develop the disease. To examine this possibility, we tested the two hypotheses that lung GM-CSF levels are low and that alveolar macrophages (AM) do not respond to GM-CSF in patients with PAP. Data from 10 adult patients with PAP who underwent therapeutic whole-lung lavage were compared with those of 10 healthy volunteers who underwent bronchoalveolar lavage (BAL) by fiberoptic bronchoscopy. Bronchoalveolar lavage fluid (BALF) and plasma were collected and analyzed for total protein and levels of GM-CSF, interleukin-3, and tumor necrosis factor (TNF)-alpha. Isolated AM were cultured with or without lipopolysaccharide (LPS) or GM-CSF, and production of GM-CSF and TNF-alpha was measured after 24 h. GM-CSF in BALF and plasma was higher in PAP than in control subjects (p </= 0.05), and was detectable under both reducing and nonreducing conditions as a 28-kD protein in BALF from the PAP patients. GM-CSF release by unstimulated AM from PAP patients was higher than in cells from control subjects, but the responses to LPS were similar. Mean TNF-alpha release by AM in response to GM-CSF was higher in control subjects than in PAP patients due to a low response in three patients. In conclusion, unbound immunoreactive GM-CSF is detectable in BALF and plasma of PAP patients. Most PAP patients also had intact AM responses to GM-CSF, although some may have had defects in GM-CSF receptor or signal-transduction mechanisms. Although these data exclude lack of GM-CSF production as a common etiology of human PAP, defects in GM-CSF function in PAP are under investigation.
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PMID:Detection of granulocyte-macrophage colony-stimulating factor in patients with pulmonary alveolar proteinosis. 1076 26

We have investigated the effect of growth factors, inflammatory and anti-inflammatory cytokines on the macrophage colony-stimulating factor (M-CSF) secretion by cultured human bone marrow stromal cells. Their production of M-CSF cultured in serum-free medium is enhanced in a time-dependent manner in response to tumour necrosis factor (TNF-)alpha and interleukin (IL-)4 but not to IL-1, IL-3, IL-6, IL-7, IL-10, SCF, granulocyte-macrophage colony-stimulating factor (GM-CSF), G-CSF, bFGF and transforming growth factor (TGF-)beta. The co-addition of IL-4 and TNF-alpha has a greater than additive effect on the secretion of M-CSF suggesting that they act synergistically. The anti-inflammatory molecules IL-10 and TGF-beta have no effect on the TNF-alpha-induced M-CSF synthesis by marrow stromal cells. In conclusion TNF-alpha and IL-4 are potent stimulators of the M-CSF synthesis by human bone marrow stromal cells, a result of importance regarding the role of M-CSF in the proliferation/differentiation of mononuclear-phagocytic cells and the role of marrow stromal cells as regulators of marrow haematopoiesis.
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PMID:Effect of cytokines and growth factors on the macrophage colony-stimulating factor secretion by human bone marrow stromal cells. 1085 71

Dendritic cell (DC) precursors and immature DC reside in epithelium where they encounter pathogens and cytokines, which stimulate their differentiation. We hypothesized that type-I interferons (IFN-alpha and -beta), cytokines that are produced early in the innate immune response against viruses and some bacteria, may influence DC differentiation and function. To examine this possibility, we used an in vitro model of DC differentiation in which initial culture of human CD14(+) monocytes with granulocyte-macrophage colony-stimulating factor (GM-CSF) and interleukin (IL)-4 generates immature DC, and subsequent culture with tumor necrosis factor (TNF)-alpha drives the final development into mature DC. We found in this model that IFN-alpha/beta, added from the initiation of the culture on, significantly reduced the survival and altered the morphology and differentiation of DC. TNF-alpha-dependent maturation of IFN-beta-treated immature DC led to cells with reduced expression of CD1a, CD40, CD54, and CD80 when compared with mature DC controls. IFN-alpha/beta-treated DC further had a reduced capacity to induce naive Th-cell proliferation through allostimulation or anti-CD3 monoclonal antibody stimulation. In addition, IFN-alpha/beta-treated DC secreted less IL-12 upon stimulation with Staphylococcus aureus Cowan strain or with CD4(+) T cells, and this decrease correlated directly with their inability to support CD4(+) T-cell secretion of IFN-gamma, even though T-cell lymphotoxin production was unaffected. These findings indicate that type-I IFNs can influence the generation of acquired immune responses by modifying T-helper cell differentiation through the regulation of DC differentiation and function.
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PMID:Interferon-alpha and -beta inhibit the in vitro differentiation of immunocompetent human dendritic cells from CD14(+) precursors. 1089 53

Colony-stimulating factor (CSF)-1 is a hematopoietic growth factor that is released by osteoblasts and is recognized to play a critical role in bone remodeling in vivo and in vitro. We have reported that osteoblasts express CSF-1 constitutively and that tumor necrosis factor (TNF)-alpha, a potent bone-resorbing agent, increases CSF-1 gene expression by a transcriptional mechanism. In the present study, we report that an NF-kappaB site in the CSF-1 promoter is required for TNF-alpha-induced CSF-1 expression in osteoblasts. As determined by electrophoretic mobility shift assays, antiserum against the NF-kappaB-binding protein, p50, retarded the mobility of the inducible complex, whereas antisera against p52, p65, c-Rel, Rel B, IkappaB alpha, IkappaB gamma, and Bcl-3 had no effect. To further confirm that p50 is necessary for TNF-alpha-induced CSF-1 expression in osteoblasts, CSF-1 messenger RNA expression from untreated and TNF-alpha-treated osteoblasts, prepared from wild-type and p50 knock-out mice, was examined by Northern analysis. CSF-1 messenger RNA was increased by TNF treatment in wild-type mice but not in NF-kappaB p50 knock-out mice. Our findings support the conclusion that the NF-kappaB subunit p50 is critical for TNF-induced CSF-1 expression in osteoblasts.
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PMID:Nuclear factor-kappaB p50 is required for tumor necrosis factor-alpha-induced colony-stimulating factor-1 gene expression in osteoblasts. 1091 79

Dendritic cells (DC) were cultured from mouse bone marrow (BM) progenitors in low concentrations of granulocyte-macrophage colony-stimulating factor (GM-CSF) (GM(lo) DC) by two different protocols. The phenotype and functional properties of these GM(lo) DC were compared to those of standard BM-DC cultures generated in high concentrations of GM-CSF (GM(hi) DC) or in low GM-CSF plus IL-4 (GM(lo)/IL-4 DC). An effect of IL-4 on maturation was observed only at low but not high doses of GM-CSF. Compared to mature DC, GM(lo) DC were phenotypically immature, weak stimulators of allogeneic and peptide-specific T cell responses, but substantially more potent in presentation of native protein. Immature GM(lo) DC were resistant to maturation by lipopolysaccharide, TNF-alpha or anti-CD40 monoclonal antibodies, as the expression of co-stimulatory molecules was not increased, and stimulatory activity in oxidative mitogenesis was not enhanced. These maturation-resistant immature GM(lo) DC induced T cell unresponsiveness in vitro and in vivo. GM(lo) DC also prolonged haplotype-specific cardiac allograft survival (from 8 days to >100 days median survival time) when they were administered 7 days (but not 3, 14 or 28 days) before transplantation. Our findings may have important implications for future studies in T cell tolerance induction in vivo.
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PMID:Immature dendritic cells generated with low doses of GM-CSF in the absence of IL-4 are maturation resistant and prolong allograft survival in vivo. 1094 Aug 70

Mast cells (MC) are stem cell factor-dependent tissue-based hematopoietic cells with substantial functional heterogeneity. Cord blood-derived human MC (hMC) express functional receptors for IL-5, and IL-5 mediates stem cell factor-dependent comitogenesis of hMC in vitro. Although IL-5 is not required for normal hMC development, we considered that it might prime hMC for their high-affinity Fc receptor for IgE (FcvarepsilonRI)-dependent generation of cytokines, as previously demonstrated for IL-4. Compared with hMC maintained in stem cell factor alone, hMC primed with IL-5 expressed 2- to 4-fold higher steady-state levels of TNF-alpha, IL-5, IL-13, macrophage inflammatory protein 1alpha, and granulocyte-macrophage colony-stimulating factor transcripts 2 h after FcvarepsilonRI crosslinking and secreted 2- to 5-fold greater quantities of the corresponding cytokines, except IL-13, at 6 h. Unlike IL-4, IL-5 priming did not enhance FcvarepsilonRI-dependent histamine release. Thus, IL-5 augments cytokine production by hMC by a mechanism distinct from that of IL-4 and with a different resultant profile of cytokine production. These observations suggest a potentially autocrine effect of IL-5 on hMC for amplification of allergic immune responses, in addition to its recognized paracrine effects on eosinophils, and implicate both IL-4 and IL-5 in the modulation of the hMC phenotype.
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PMID:IL-4 and -5 prime human mast cells for different profiles of IgE-dependent cytokine production. 1097 84

We recently located a rare cytokeratin-positive (CK+) type of microvascular endothelial cell (MVEC) in the corpus luteum and aorta. Bovine corpus luteum MVEC are known to be involved in the cyclic accumulation of eosinophils and macrophages. Since leukocyte migration is specifically mediated by adhesion molecules and the release of cytokines, we compared the expression of these factors in basal and TNF-alpha-stimulated CK+ MVEC and in common cytokeratin-negative (CK-) MVEC in order to obtain an initial insight into the functional capacities of CK+ MVEC. CK- MVEC revealed significantly higher basal RANTES mRNA expression than CK+ MVEC, and TNF- alpha up-regulated RANTES mRNA in both types of MVEC. Only resting and stimulated CK- MVEC expressed granulocyte-macrophage colony-stimulating factor mRNA. Both MVEC types expressed monocyte colony-stimulating factor mRNA, but remained negative for eotaxin and interleukin (IL)-5 mRNA even after stimulation. Resting CK+ MVEC were positive for CD29, CD31, CD49a and CD49e, but expressed most of these antigens at a significantly lower density than did CK- MVEC. In contrast to CK- MVEC, CK+ MVEC failed to express CD49b or MHC class II. The activation of CK+ MVEC with TNF-alpha induced the expression of CD62P, but not of CD49b or MHC class II. In summary, phenotypically variable MVEC derived from the microvascular bed of one organ differ in their TNF-alpha-regulated expression of cytokine mRNA and adhesion molecules. Morphological heterogeneity is related to a particular specialisation of functional MVEC.
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PMID:Microvascular endothelial cells differ in their basal and tumour necrosis factor-alpha-regulated expression of adhesion molecules and cytokines. 1102 4

We have previously reported that the priming of thioglycollate-elicited peritoneal macrophages (PMphi), as a representative population of mononuclear phagocytes (MNP), by macrophage-colony-stimulating factor (M-CSF or CSF-1) rendered these cells more susceptible to secondary stimulation by extracellular matrix (ECM) proteins, in particular fibronectin (FN), and that at least two beta1 integrins, VLA 4 (alpha4beta1 or CD49d) and VLA 5 (alpha5beta1 or CD49e), regulate IL-6 gene expression when PMphi come into contact with FN. In this report, we focused our attention on resident PMphi, as a more mature/differentiated MNP subpopulation. By using granulocyte-macrophage colony-stimulating factor (GM-CSF)- and IL-6-knockout (null) mice, we demonstrated that the cooperative effect between CSF-1 and FN in IL-6 release was a result of a sequential stimulation of the GM-CSF, but not the TNF-alpha, gene via interaction with VLA 5. We also showed that regardless of the presence or absence of CSF-1 or FN, IL-6 inhibits GM-CSF and TNF-alpha gene expression in an autocrine manner. The observed effects were specific because CSF-1 enhanced VLA 5 expression and blocking FN-treated resident PMphi in vitro with VLA 5 monoclonal antibodies inhibited the IL-6 response. We found that treatment of resident PMphi with the protein kinase C inhibitor, staurosporine, and the activator, phorbol myristate acetate (PMA), resulted in marked modulation of either FN- or FN/CSF-1-induced cytokine release. An increased level of VLA 5 expression was observed in PMA-treated resident PMphi. We concluded that in inflammatory processes, CSF-1 drives a number of pathways involved in the regulation of the expression of several genes and renders MNP highly susceptible to stimulation by ECM proteins that transform the MNP into secretory inflammatory cells.
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PMID:CSF-1 (M-CSF) enhances the inflammatory response of fibronectin-primed macrophages: pathways involved in activation of the cytokine network. 1106 91

To better characterize human dendritic cells (DCs) that originate from lymphoid progenitors, the authors examined the DC differentiation pathways from a novel CD7(+)CD45RA(+) progenitor population found among cord blood CD34(+) cells. Unlike CD7(-)CD45RA(+) and CD7(+)CD45RA(-) progenitors, this population displayed high natural killer (NK) cell differentiation capacity when cultured with stem cell factor (SCF), interleukin (IL)-2, IL-7, and IL-15, attesting to its lymphoid potential. In cultures with SCF, Flt3 ligand (FL), granulocyte-macrophage colony-stimulating factor (GM-CSF), and tumor necrosis factor (TNF)-alpha (standard condition), CD7(+)CD45RA(+) progenitors expanded less (37- vs 155-fold) but yielded 2-fold higher CD1a(+) DC percentages than CD7(-)CD45RA(+) or CD7(+)CD45RA(-) progenitors. As reported for CD34(+)CD1a(-) thymocytes, cloning experiments demonstrated that CD7(+)CD45RA(+) cells comprised bipotent NK/DC progenitors. DCs differentiated from CD7(-)CD45RA(+) and CD7(+)CD45RA(+) progenitors differed as to E-cadherin CD123, CD116, and CD127 expression, but none of these was really discriminant. Only CD7(+)CD45RA(+) or thymic progenitors differentiated into Lag(+)S100(+) Langerhans cells in the absence of exogenous transforming growth factor (TGF)-beta 1. Analysis of the DC differentiation pathways showed that CD7(+)CD45RA(+) progenitors generated CD1a(+)CD14(-) precursors that were macrophage-colony stimulating factor (M-CSF) resistant and CD1a(-)CD14(+) precursors that readily differentiated into DCs under the standard condition. Accordingly, CD7(+)CD45RA(+) progenitor-derived mature DCs produced 2- to 4-fold more IL-6, IL-12, and TNF-alpha on CD40 ligation and elicited 3- to 6-fold higher allogeneic T-lymphocyte reactivity than CD7(-)CD45RA(+) progenitor-derived DCs. Altogether, these findings provide evidence that the DCs that differentiate from cord blood CD34(+)CD7(+)CD45RA(+) progenitors represent an original population for their developmental pathways and function. (Blood. 2000;96:3748-3756)
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PMID:Characterization of dendritic cell differentiation pathways from cord blood CD34(+)CD7(+)CD45RA(+) hematopoietic progenitor cells. 1109 56


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