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)

Proliferation in vitro of the in vivo passaged murine B cell tumor line BCL1 has been used as a standard assay for mouse interleukin-5 (IL-5) for a number of years. We demonstrate that this line will also respond to human IL-5. The response to murine IL-5 is abrogated by transforming growth factor-beta and to a lesser extent by interferon-gamma. This suggests a possible regulatory role for these lymphokines in the proliferation of B cells induced by IL-5. Other purified recombinant lymphokines were also tested for their ability to induce BCL1 proliferation. The lymphokines IL-1, IL-2, IL-3, and IL-6 had no effect on the growth of BCL1. In contrast, IL-4 and more surprisingly granulocyte-macrophage colony-stimulating factor (GM-CSF) also induced proliferation of this cell. These effects could be inhibited by specific antibodies directed against the respective lymphokines. These data suggest that GM-CSF, as well as IL-4 and IL-5, may be yet another regulator of neoplastic and possibly even normal B-cell growth and differentiation.
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PMID:The BCL1 B lymphoma responds to IL-4, IL-5, and GM-CSF. 267 47

Human granulocyte-macrophage colony-stimulating factor (GM-CSF) has in vitro and in vivo effects on hemopoiesis and enhances the function of circulating mature myeloid cells. Unstimulated fibroblasts show low level GM-CSF transcription but no accumulation of GM-CSF mRNA or protein, whereas fibroblasts stimulated by TNF-alpha, IL-1, and phorbol diester have been shown to produce and secrete GM-CSF. To determine the mechanisms controlling the expression of GM-CSF in human fibroblasts, we used a transient transfection assay to look at the effect of TNF-alpha, IL-1 and phorbol diester on GM-CSF promoter sequences. Our results demonstrate that the phorbol diester, 12-O-tetradecanoylphorbol 13-acetate, can stimulate GM-CSF transcription via sequences located within 53 bp upstream of the GM-CSF cap site. TNF-alpha and IL-1 had no effect on GM-CSF transcription, suggesting that these cytokines act predominantly post-transcriptionally to stimulate production of GM-CSF. Our results demonstrate that multiple mechanisms can be used by human fibroblasts to produce GM-CSF in response to various inflammatory stimuli.
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PMID:Multiple mechanisms control the expression of granulocyte-macrophage colony-stimulating factor by human fibroblasts. 267 82

The effects of recombinant hemopoietic factors on the clonal growth of human megakaryocyte progenitors were explored using serum-free cultures of nonadherent and T-cell-depleted marrow cells. Recombinant granulocyte-macrophage colony-stimulating factor (rGM-CSF) supported megakaryocyte colony formation in a dose-dependent manner, the activity being lower than that of recombinant interleukin 3 (rIL-3). Recombinant IL-3 and rGM-CSF acted synergistically on megakaryocyte colony formation when rGM-CSF was added to cultures containing suboptimal concentrations of rIL-3. However, the number and size of colonies did not increase with rGM-CSF when cultures were plated with an optimal dose of rIL-3. Recombinant erythropoietin (rEpo) by itself did not stimulate the growth of megakaryocyte progenitors. Recombinant Epo did, however, produce a significant increase in the number and size of megakaryocyte colonies in the presence of rIL-3 or rGM-CSF. Other factors, including recombinant granulocyte colony-stimulating factor, recombinant interleukin 1 alpha, recombinant interleukin 4, and recombinant interleukin 6 showed no capacity to generate or enhance megakaryocyte colony formation when added to cultures alone or in combination with varying concentrations of rIL-3. These results show that rIL-3, rGM-CSF, and rEpo affect human megakaryocytopoiesis by themselves or by interacting with each other.
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PMID:Effect of recombinant hemopoietic growth factors on human megakaryocyte colony formation in serum-free cultures. 268 May 66

The effects of human recombinant interleukin 6 (rIL-6) on in vitro human megakaryocytopoiesis were studied utilizing a serum-depleted culture system. Recombinant IL-6 increased both the number of megakaryocyte (MK) colonies formed and the number of cells comprising individual MK colonies cloned from normal low-density bone marrow (LDBM) cells. This stimulation of MK colony number and size was significantly less than that observed following the addition of recombinant interleukin 3 (rIL-3) or granulocyte-macrophage colony-stimulating factor (rGM-CSF). The addition of either rIL-3 or rGM-CSF, but not rIL-6 promoted MK colony formation by nonadherent, low-density, T-cell-depleted (NALDT-) marrow cells. Recombinant interleukin 1 alpha (rIL-1 alpha) and interleukin 4 (rIL-4) failed either to promote LDBM MK colony formation when added alone or to significantly increase rIL-6-promoted MK colony formation. MK colony formation promoted by optimal doses of rIL-6 was, in fact, significantly inhibited by rIL-1 alpha at all concentrations tested. Addition of either recombinant erythropoietin (rEpo) or purified thrombocytopoiesis-stimulating factor (TSF) to assays containing rIL-6 also resulted in significant inhibition of MK colony formation. The effect of suboptimal concentrations of rIL-6 on MK colony formation was additive to that of rIL-3 but not rGM-CSF. The addition of transforming growth factor beta (TGF-beta) resulted in a 58% reduction of rIL-6-promoted MK colony formation by LDBM. These data suggest that rIL-6 can promote in vitro megakaryocytopoiesis and that this effect can be either augmented or inhibited by the addition of several other cytokines. Recombinant IL-6, however, might affect the MK colony-forming unit (CFU-MK) by acting through bone marrow accessory cells or requiring the presence of as yet unidentified additional cytokines.
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PMID:Effect of interleukin 6 on in vitro human megakaryocytopoiesis: its interaction with other cytokines. 268 May 67

Lymph-borne dendritic cells (L-DC) collected from the thoracic duct of rats following mesenteric lymphadenectomy are derived from the small intestine. We have cultured these cells in vitro and examined their survival and phenotypic and functional changes. L-DC survive poorly in culture in normal media (less than 50% overnight) but survival can be markedly increased by supplementation with Con A-stimulated spleen cell supernatant or recombinant granulocyte-macrophage colony-stimulating factor (GM-CSF) but not by recombinant IL-1, IL-2, IFN-gamma or by an IL-3-rich supernatant. The effects of GM-CSF are blocked by a specific antiserum. L-DC display heterogeneity for some surface markers, cytoplasmic inclusions and enzyme reactivity. After 16-48 hr culture the pattern of expression is markedly different. The numbers of Thy-1-positive L-DC and the amount of Thy-1 expressed increases, as do the numbers of L-DC expressing OX48 antigen. All L-DC remain Ia positive, but the proportion expressing the iC'3b receptor, non-specific esterase or cytoplasmic DNA inclusions decreases to almost zero. In contrast to Langerhans' cells, fresh L-DC are potent stimulators of an allogeneic mixed leucocyte reaction (MLR) but their potency is considerably increased after 16 hr culture. Also in contrast to Langerhans' cells, the increase in potency is not affected by culture with CAS and is thus unlikely to be dependent on GM-CSF. The changes described in L-DC properties could be related to their role as antigen-presenting cells.
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PMID:Properties of lymph-borne (veiled) dendritic cells in culture. I. Modulation of phenotype, survival and function: partial dependence on GM-CSF. 268 Sep 6

Supernatants from a subset of helper T cell clones can enhance IgA, IgE, and IgG1 production in cultures of lipopolysaccharide-stimulated, T cell-depleted spleen cells. The lymphokine interleukin (IL)-4 has been shown to cause the IgE and IgG1 enhancement produced by these supernatants. IgA enhancement, however, is mediated by a factor distinct from IL-4, although IL-4 can potentiate the effect of the IgA-enhancing factor. IgA-enhancing factor is also distinct from IL-1, IL-2, IL-3, granulocyte-macrophage colony-stimulating factor, and interferon-gamma and acts directly on B cells. Purified IgA-enhancing factor enhances IgA production three- to sixfold yet causes less than a twofold increase in other isotypes. The IgA enhancing activity is not inhibited by concentrations of interferon-gamma that inhibit IL-4 activities. In the accompanying article, we show that this IgA enhancing activity is a novel property of the lymphokine IL-5.
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PMID:A mouse T cell product that preferentially enhances IgA production. I. Biologic characterization. 296 Jul 39

In this report a method for the affinity purification and radiolabeling of recombinant mouse interleukin (IL)-4 is described. It is shown on the basis of several criteria that IL-4 retains full biologic activity after radioiodination and can therefore be used as a valid model for measuring the binding characteristics of native IL-4. By using Scatchard plot analysis of equilibrium binding data, it is demonstrated that 125I-IL-4 binds to a high affinity cell surface receptor which is expressed by both hemopoietic and nonhemopoietic cells. The dissociation constant for 125I-IL-4 (Kd = 20 to 60 pM) corresponds to the concentration of IL-4 which gives 50% biologic activity (i.e., 10 to 30 pM). Binding of 125I-IL-4 is rapid (t1/2 of 2 min), whereas dissociation occurs at a slow rate (t1/2 approximately 4 hr). The IL-4 receptor shows a high degree of specificity. Whereas unlabeled mouse IL-4 competed with mouse 125I-IL-4 in an equimolar fashion for binding to IL-4 receptors, several other lymphokines, including mouse IL-2, IL-3, interferon-gamma, granulocyte-macrophage colony-stimulating factor, and human IL-1, IL-2, and IL-4 were unable to inhibit, even at molar excesses of 400 to 800-fold. At 37 degrees C, 125I-IL-4 is rapidly internalized (approximately 200 molecules/cell/min) by HT-2 cells, with at least 85% of cell surface receptors being functional in this respect. Receptors for IL-4 were found to be expressed by subclasses of T and B cells, mast cells, macrophages, and by cells of the myeloid and erythroid lineages. This wide distribution of receptor expression closely matches the known spectrum of biologic activities of IL-4, including proliferation and/or differentiation of T and B cells, mast cells and granulocytes, and induction of macrophage antigen-presenting capacity. IL-4 receptors were also found on a variety of nonhemopoietic cells such as cloned stromal cell lines from the bone marrow, spleen, thymus, and brain, and on muscle, brain, melanoma, fibroblast, and liver cells. Indeed, only 5 of more than 90 cell types tested have undetectable numbers of IL-4 receptors. The biologic effects of IL-4 on nonhemopoietic cells have not yet been reported and await elucidation.
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PMID:Expression of high affinity receptors for murine interleukin 4 (BSF-1) on hemopoietic and nonhemopoietic cells. 296 13

Supernatants of cultured human thymic nonlymphoid cells were assayed for granulopoietic factors using cultures of low density bone marrow mononuclear cells (LD-BMMC). Thymic nonlymphoid cell-conditioned medium (TNLC-CM) supported vigorous myeloid colony growth of LD-BMMC, and of LD-BMMC depleted of T lymphocytes and/or monocytes. Colony stimulating activity (CSA) in TNLC-CM was abrogated by a highly specific neutralizing antiserum against recombinant human granulocyte-macrophage colony-stimulating factor (GM-CSF). TNLC-CM also enhanced colony growth in LD-BMMC stimulated by colony stimulating activity from a giant cell tumor culture (GCT). The enhancing activity of TNLC-CM, unlike its CSA activity, required the presence of adherent cells in the marrow cell culture. The addition of anti-interleukin-1 (anti-IL-1) antibody to TNLC-CM inhibited the GCT-enhancing activity, but not the CSA. When the anti-IL-1 immunoglobulin was added directly to cultures of thymic nonlymphoid cells, GM-CSF production was completely inhibited, and the GCT enhancing activity was neutralized. We conclude that an intercellular regulatory network exists in cultured thymic explants in which GM-CSF expression is induced by IL-1. In this system, the granulopoietic effect of IL-1 derives not from a direct effect on myeloid progenitors, but from its ability to recruit CSA production by other cells.
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PMID:Granulocyte macrophage colony-stimulating activity production by cultured human thymic nonlymphoid cells is regulated by endogenous interleukin-1. 304 37

The x-irradiation biology of supportive stromal cells of the bone marrow microenvironment was investigated by using cloned permanent cell lines that were established from hematopoietically active murine long-term bone marrow cultures. X-irradiation survival curves were derived for each cell line at either 120 cGy/min or clinical low dose rate (LDR) (5 cGy/min) that is used in total body irradiation protocols prior to bone marrow transplantation. Four cell lines, MBA-1, MBA-13, 14F2.1, and D2XRII (Group I) demonstrated a significant increase in D0 at 5 cGy/min (280 cGy, 270 cGy, 210 cGy, and 240 cGy, respectively) compared to 120 cGy/min (215 cGy, 210 cGy, 157 cGy, and 210 cGy, respectively) (p less than 0.05). In contrast, three other clonal cell lines, +/+ #2 cl 4, S1d #3, and GPI alpha-1 (Group II) showed no significant dose rate dependent change in D0 at 5 cGy/min (164 cGy, 174 cGy, and 159 cGy, respectively) compared to 120 cGy/min (159 cGy, 167 cGy, and 143 cGy, respectively). Group I and II cell lines could not be distinguished by differences in synthesis of extracellular matrix proteins including laminin, collagen types I and IV, or histochemically detectable enzymes. Three Group I lines (MBA-1, MBA-13, and D2XRII) and one Group II line, Sld #3, showed decreased support capacity for cocultivated hematopoietic stem cells in vitro. All seven lines had detectable polyA+ mRNA for monocyte colony-stimulating factor (M-CSF) as detected by molecular hybridization; one had detectable levels of polyA+ mRNA for granulocyte-macrophage colony-stimulating factor (GM-CSF) (D2XRII); one, detectable levels of polyA+ mRNA for interleukin 1 (IL-1); and none of the seven had detectable polyA+ mRNA for granulocyte colony-stimulating factor (G-CSF) or IL-3 (multi-CSF). The data indicate that some cells of the hematopoietic microenvironment may not be selectively protected by clinical low dose rate irradiation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Radiosensitivity of cloned permanent murine bone marrow stromal cell lines: nonuniform effect of low dose rate. 304 29

Granulocyte-macrophage colony-stimulating factor (GM-CSF) has emerged as an important regulation for hematopoietic cell development and function. Within the myeloid lineages, GM-CSF serves as a growth and developmental factor for intermediate-stage progenitors between early, interleukin 3-responsive and late granulocyte colony-stimulating factor-responsive precursors. GM-CSF also serves as an activator of circulating effector cells. The ability of GM-CSF to induce monocyte expression of tumor necrosis factor, interleukin 1 and other factors, further ties this hormone into a network of cytokines that interact to regulate many hematologic and immunologic responses. The availability of large quantities of recombinant GM-CSF now provides the opportunity and challenge not only for unraveling the mechanisms regulating hematopoiesis, but also for developing new therapies for enhancement of host defense against infection that were not previously possible.
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PMID:Biological activities of human granulocyte-macrophage colony-stimulating factor. 306 14


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