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)

Macrophage colony-stimulating factor (M-CSF) and granulocyte-macrophage colony-stimulating factor (GM-CSF) are major mediators for the differentiation, proliferation, and activation of the macrophage. Recently, M-CSF was documented to play a pivotal role in the development of nephritis via macrophage activation in MRL-lpr mice. The macrophage is also considered to be an important component in the development of human glomerulonephritis. The expression and function of colony-stimulating factors (CSF) in the human kidney have not yet been defined. This study was undertaken to elucidate the various roles of CSF in the development of glomerulonephritis in humans. We examined the glomerular expression of M-CSF and GM-CSF in patients with various forms of glomerulonephritis and in normal subjects using immunohistochemical methods and nonradioisotopic in situ hybridization. The expression of CSF at both the protein and mRNA level in the glomeruli was compared with the degree of mesangial proliferation; the number of macrophages, Ki67-positive cells, and HLA-DR-positive cells; and the degree of alpha-smooth muscle actin-positive area in the glomerulus and clinical data. M-CSF and GM-CSF were expressed mainly on the mesangial cells in the glomerulus. Intraglomerular expressions of CSF at the protein level were increased in cases of IgA nephropathy and lupus nephritis. There was a positive correlation among the M-CSF protein expression and glomerular proliferation, macrophage infiltration, and the degree of proteinuria. M-CSF mRNA expression also was increased in the cases of IgA nephropathy and lupus nephritis. The number of Ki67-positive cells and HLA-DR-positive cells and alpha-smooth muscle actin-positive area in the glomerulus were increased in the cases with enhanced M-CSF expression. These results suggest that the glomerular secretion of M-CSF promotes macrophage infiltration into the glomerulus and activates resident and extraneous macrophages in the mesangial proliferative glomerulonephritis. M-CSF is considered to be a major mediator in the development of mesangial proliferative glomerulonephritis in humans.
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PMID:Glomerular expression of macrophage colony-stimulating factor and granulocyte-macrophage colony-stimulating factor in patients with various forms of glomerulonephritis. 880 63

The role of infiltrating macrophages in the pathogenesis of acute rejection was investigated in biopsy specimens obtained from human transplanted kidneys using immunohistochemical methods. Thirty-one allograft tissue specimens obtained from 26 patients were histologically classified into 18 with acute rejection, 7 with borderline change and 6 with chronic rejection according to the Banff working classification (1993). These specimens were analyzed by avidin-biotin peroxidase complex method on frozen sections in order to examine the utility of some antimonocyte/macrophage monoclonal antibodies in differentiating acute rejection from other conditions. The ratio of CD68, CD11b, LeuM3, OKM5 and HAM56-positive infiltrating monocytes/macrophages to leukocyte common antigen (LCA)-positive cells in the renal cortex were calculated. As a result, the ratio of the positive cells for CD68, which stains mature macrophages, significantly increased in the cases of acute rejection compared with those of other groups. In addition, a strong expression of granulocyte-macrophage colony-stimulating factor (GM-CSF) was observed in the acute rejection group. In our study, the expression of class II major histocompatibility antigens (HLA-DR) in the proximal epithelial tubules was also strongly observed in the cases of acute rejection. It was thus concluded that the increase of CD68-positive infiltrating cells and the expression of GM-CSF may play a possible role as a reaction effector in the process of acute renal allograft rejection.
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PMID:An analysis of monocyte/macrophage subsets and granulocyte-macrophage colony-stimulating factor expression in renal allograft biopsies. 885 48

Macrophages are putative target cells for expressing an exogenous gene with therapeutical effects. Knowing that macrophages express membrane lectins mediating endocytosis of their ligands, DNA/glycosylated polylysine complexes were used to transfect human blood monocyte-derived macrophages. Monocytes from human peripheral blood were matured in culture for 7 days to differentiate into macrophage-like cells in the presence of granulocyte-macrophage colony-stimulating factor (GM-CSF). Adherent cells, which displayed characteristic macrophage markers, CD 14, CD 11b, HLA-DR, and HLA-ABC antigens and mannose receptor, were transfected by DNA/glycosylated polylysine complexes in the presence of chloroquine. The luciferase reporter gene expression was maximal 24 hr after transfection with a DNA/mannosylated polylysine complex and by using plasmids in which the promoters (either the long terminal repeat of the human immunodeficiency virus or the human cytomegalovirus) drove the luciferase gene expression. Luciferase gene expression was lower when the promoter was the early region of the large T antigen of SV40 virus. Transfection mediated by DNA/mannosylated polylysine complexes was much more efficient than with DEAE-dextran or lipofectin. The possibility of transferring and expressing an exogenous gene into macrophage-like cells by using a nonimmunogenic synthetic vector as a DNA carrier opens new ways to develop nonviral gene therapy strategies.
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PMID:Gene transfer by DNA/glycosylated polylysine complexes into human blood monocyte-derived macrophages. 891 94

Bone marrow cells (BMC) are involved in the pathogenesis of human cytomegalovirus++ (HCMV) infections, and the hematopoietic cells are probable sites of HCMV latency in healthy donors. In vitro studies have indicated both a direct inhibitory effect of HCMV on proliferation and differentiation of myeloid bone marrow progenitors and an impairment of bone marrow stroma cell function by HCMV. The purpose of the present study was to establish whether the suppressing effect could be limited to subsets of immature CD34+ BMC and to investigate the role of immature cell populations as possible sites of HCMV latency. CD34+ cells from healthy HCMV-seropositive and -seronegative donors were sorted according to the expression of HLA-DR (CD34+ HLA-DR+ and CD34+ HLA-DR- cells). The progenitor growth of hematopoietic progenitor cells from seronegative donors was examined by colony and single-cell assays after in vitro infection with HCMV. To determine the susceptibility of the CD34+ cells to HCMV infection in vitro and in vivo, cells of both subsets from seronegative and seropositive donors were analyzed for the presence of HCMV DNA by polymerase chain reaction. HCMV infection in vitro inhibited the interleukin-1alpha (IL-1alpha)-, IL-3-, granulocyte colony-stimulating factor-, granulocyte-macrophage colony-stimulating factor-, and stem cell factor-induced proliferation in single-cell assays of CD34+ HLA-DR- cells by 34%. In contrast, the colony growth of the CD34+ HLA-DR+ subset was suppressed in cells from only 3 of the 8 donors. However, in vitro HCMV infection of the CD34+ HLA-DR+ progenitor cells inhibited the proliferation of all donors tested when hematopoietic growth factors were used individually to promote progenitor growth. In addition, the formation of burst-forming units-erythroid and colony-forming units-granulocyte, erythrocyte, monocyte, megakaryocyte was reduced 40% to 60% by HCMV in vitro. In contrast, the growth of high proliferative potential colony-forming cells was not inhibited after in vitro HCMV infection. Furthermore, HCMV DNA was detected in both CD34+ HLA-DR- and CD34+ HLA-DR+ progenitors from in vitro-infected HCMV-seronegative donors and cells from HCMV-seropositive donors. Taken together, the early progenitors defined as CD34+ HLA-DR- and CD34+ HLA-DR+ are directly suppressed in their proliferation by HCMV in vitro, and hematopoietic stem cells are also sites of HCMV latency in healthy HCMV-seropositive donors.
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PMID:Human cytomegalovirus suppression of and latency in early hematopoietic progenitor cells. 897 44

This study was undertaken to investigate the immunomodulatory effect of clarithromycin against synovial fibroblast-like cells (synoviocytes). Synovial tissue obtained from rheumatoid arthritis (RA) or osteoarthritis (OA) patients was enzymatically digested to separate synoviocytes. The synoviocytes were cultured with or without cytokines in the presence of various concentrations of clarithromycin. The expression of costimulatory molecules was examined on the surface of the synoviocytes, using specific MoAbs and flow cytometry. The production of cytokines by synoviocytes was also measured using an immunoenzymatic assay. Finally, autologous T cells were stimulated by interferon-gamma (IFN-gamma)-treated synoviocytes in response to purified protein derivative (PPD). In some experiments, MoAbs specific for costimulatory molecules or clarithromycin were added and 3H-thymidine incorporation was counted. Intercellular adhesion molecule-1 (ICAM-1), LFA-3 and vascular cell adhesion molecule-1 (VCAM-1) were detected on the surface of both RA and OA synoviocytes. However, ICAM-2, B7-1 and B7-2 were not detected, and cytokines failed to induce these molecules. Both spontaneous and up-regulated expression of ICAM-1, LFA-3 and VCAM-1 by IFN-gamma, IL-1beta or 12-o-tetradecanoyl phorbol 13-acetate (TPA) were markedly suppressed by clarithromycin in a dose-dependent manner at concentrations between 0.1 and 10 microg/ml. The production of IL-1beta, IL-6, IL-8, granulocyte colony-stimulating factor (G-CSF) and granulocyte-macrophage colony-stimulating factor (GM-CSF) but not IL-1alpha and tumour necrosis factor-alpha (TNF-alpha) by synoviocytes was detected. Clarithromycin significantly suppressed the production of these cytokines, but did not enhance IL-10 production. Finally, autologous T cells were stimulated by IFN-gamma-treated synoviocytes in response to PPD. As clarithromycin suppressed HLA-DR and costimulatory molecule expression was enhanced by IFN-gamma, autologous T cell proliferation was markedly inhibited by clarithromycin. Clarithromycin has a considerable immunosuppressive effect on synoviocytes by inhibiting costimulatory molecule expression, cytokine production and antigen-specific T cell proliferation induced by synoviocytes.
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PMID:Inhibitory effect of clarithromycin on costimulatory molecule expression and cytokine production by synovial fibroblast-like cells. 909 36

Culturing human monocytes in the presence of granulocyte-macrophage colony-stimulating factor (GM-CSF) and interleukin-4 (IL-4) has been reported to provoke the formation of multinucleated giant cells (GCs). In the present work, GCs were generated in a two-step procedure in which macrophages were first differentiated from monocytes before being fused into GCs. The two cytokines used acted sequentially. GM-CSF was required for monocyte differentiation and IL-4 for macrophage fusion. Macrophages were purified from cultures of blood mononuclear cells maintained for 7 days in plastic bags. When seeded in conventional plastic-ware in the presence of IL-4, these macrophages showed an increased motility, spread in thin cytoplasmic lamellas, regrouped in clusters, and within 1-3 weeks, differentiated into GCs. Multinucleated cells also appeared in IL-4-untreated macrophage cultures but the number of nuclei did not exceed 2 or 3, compared with more than 30 in the presence of IL-4. Scanning electron microscopy of GCs showed highly developed pseudopods. GCs reacted with anti-CD11b, -CD54, -CD68, -HLA-ABC, and -HLA-DR monoclonal antibodies and AMH-152 but were CD14- and CD64-negative. Both untreated and IL-4-treated macrophages conserved pinocytic and phagocytic activity. Thus, IL-4 induced a differentiation process in which macrophages lost markers like CD14 and CD64, acquired an enhanced membrane motility, and fused in multinucleated GCs.
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PMID:Generation of multinucleated giant cells by culture of monocyte-derived macrophages with IL-4. 910 39

We report the generation of dendritic cells (DC) starting from CD34+ bone marrow (BM) progenitor cells, using a two-stage culture system in which, besides granulocyte-macrophage colony-stimulating factor (GM-CSF) and tumour necrosis factor-alpha (TNF-alpha), stem-cell factor (SCF) was added during the first 5 days, while interleukin-4 (IL-4) and/or interferon-gamma (IFN-gamma) were added during the secondary culture period of 9 days. Addition of IL-4 favoured the outgrowth of CD1a+, HLA-DR+, CD4+, CD40+, CD80+ but CD14- cells with dendritic morphology and strong antigen-presenting capacity. Addition of IFN-gamma selectively induced HLA-DR and CD86 but did not up-regulate CD1a expression or antigen-presenting capacity of the differentiated cells. An antagonism between IL-4 and IFN-gamma could further be confirmed in that, as compared with IL-4 alone, the simultaneous addition of IL-4 and IFN-gamma to GM-CSF plus TNF-alpha during maturation reduced both the phenotypical (CD1a, CD4, CD40) and functional characteristics of DC. Using receptor-specific TNF-alpha mutants, we investigated the relative involvement of TNF-alpha receptors R1 and R2 in the generation of DC. The induction of CD1a and HLA-DR, as well as the increase in allostimulatory capacity were dependent on TNF-R1 triggering, whereas triggering through TNF-R2 had no measurable effect. We conclude first, that the expansion of DC from BM progenitors could most effectively be enhanced in a two-stage culture assay using SCF, GM-CSF, TNF-alpha and IL-4; second, that the effect of TNF-alpha in DC generation involves signalling via the TNF-R1 receptor; and third, that IFN-gamma counteracts some of the effects of IL-4 in DC generation.
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PMID:Generation of dendritic cells from bone marrow progenitors using GM-CSF, TNF-alpha, and additional cytokines: antagonistic effects of IL-4 and IFN-gamma and selective involvement of TNF-alpha receptor-1. 937 94

Recent experimental data have shown that mice could be immunized efficiently, in particular against cancer, by the injection of antigen-loaded dendritic cells (DC) or macrophages (MPH). In the present work, these two antigen-presenting cells (APC) were prepared in humans from circulating mononuclear cells (MNC). MPH were obtained from MNC that were cultured in hydrophobic plastic bags and purified by elutriation. DC were from the culture of adherent elutriation-purified monocytes in the presence of granulocyte-macrophage colony-stimulating factor (GM-CSF) and interleukin-4 (IL-4). The two APC were prepared in parallel from the same donors and their phenotype and antigen-presenting capacity were compared. DC differed from MPH by a higher expression of HLA-DR and CD23 and a lower expression of CD14, CD64 and of adhesion molecules. DC and MPH were comparably effective in (a) enhancing the mitotic response of autologous lymphocytes to immobilized anti-CD3 (accessory function); (b) presenting melanoma peptides to specific cytotoxic T lymphocyte (CTL) clones; and (c) stimulating the generation of CTL directed against a myxovirus influenza peptide. However, DC were more effective than MPH in inducing the mitotic response of allogeneic peripheral blood leucocytes (PBL), possibly because of their higher expression of HLA class II molecules. In conclusion, DC and MPH prepared from blood MNC did not differ substantially in their ability to activate HLA class I-restricted T-cell responses by exogenous peptide presentation.
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PMID:Human monocyte-derived macrophages and dendritic cells are comparably effective in vitro in presenting HLA class I-restricted exogenous peptides. 937 6

Macrophages and dendritic cells derive from a hematopoietic stem cell and the existence of a common committed progenitor has been hypothesized. We have recently found in normal human marrow a subset of CD34(+) cells that constitutively expresses HLA-DR and low levels of CD86, a natural ligand for the T cell costimulation receptor CD28. This CD34(+) subset can elicit responses from allogeneic T cells. In this study, we show that CD34(+)/CD86(+) cells can also present tetanus toxoid antigen to memory CD4(+) T cells. CD86 is expressed at low levels in macrophages and high levels in dendritic cells. Therefore, we have tested the hypothesis that CD34(+)/CD86(+) cells are the common precursors of both macrophages and dendritic cells. CD34(+)/CD86(+) marrow cells cultured in granulocyte-macrophage colony-stimulating factor (GM-CSF)-generated macrophages. In contrast, CD34(+)/CD86(-) cells cultured in GM-CSF generated a predominant population of granulocytes. CD34(+)/CD86(+) cells cultured in GM-CSF plus tumor necrosis factor-alpha (TNF-alpha) generated almost exclusively CD1a+/CD83(+) dendritic cells. In contrast, CD34(+)/CD86(-) cells cultured in GM-CSF plus TNF-alpha generated a variety of cell types, including a small population of dendritic cells. In addition, CD34(+)/CD86(+) cells cultured in granulocyte colony-stimulating factor failed to generate CD15(+) granulocytes. Therefore, CD34(+)/CD86(+) cells are committed precursors of both macrophages and dendritic cells. The ontogeny of dendritic cells was recapitulated by stimulation of CD34(+)/CD86(-) cells with TNF-alpha that induced expression of CD86. Subsequent costimulation of CD86(+) cells with GM-CSF plus TNF-alpha lead to expression of CD83 and produced terminal dendritic cell differentiation. Thus, expression of CD86 on hematopoietic progenitor cells is regulated by TNF-alpha and denotes differentiation towards the macrophage or dendritic cell lineages.
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PMID:Expression of CD86 on human marrow CD34(+) cells identifies immunocompetent committed precursors of macrophages and dendritic cells. 957 27

A whole-blood model was used to evaluate the effects of temperature and anticoagulant on the expression of activation markers HLA-DR and CD11b on peripheral leukocytes. Venous blood, anticoagulated with either EDTA or heparin, was obtained from six healthy blood donors and 13 hospitalized patients (8 human immunodeficiency virus type 1-seropositive individuals with concurrent pulmonary tuberculosis and 5 patients with pneumonia). A preliminary evaluation was carried out with whole blood from two of the normal donors, and cells were stained immediately for HLA-DR and CD11b markers or stained after incubation at room temperature or 37 degreesC for 18 h with or without the addition of the cytokines gamma interferon (IFN-gamma), granulocyte-macrophage colony-stimulating factor (GM-CSF), IFN-gamma plus GM-CSF, tumor necrosis factor beta, or interleukin-6. Of the cytokines tested, the combination of IFN-gamma and GM-CSF had the most pronounced modulation of marker expression on polymorphonuclear neutrophils (PMN), in particular, HLA-DR expression, which required induction for its detection. These cytokines were therefore used in further evaluations that considered the above-mentioned effects in the presence of disease. Results indicated that the expression of activation markers on PMN and lymphocytes in whole blood are influenced by the temperature of incubation and the choice of anticoagulant and the effects noted were dependent on (i) the particular cell surface marker, (ii) the cell type being studied, and (iii) the presence or absence of disease. It is therefore recommended that ex vivo whole-blood models for evaluating phenotype or immune function be carefully evaluated for the above-mentioned effects.
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PMID:Effects of anticoagulants and temperature on expression of activation markers CD11b and HLA-DR on human leukocytes. 972 38


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