UNIPROT:P04141 - FACTA Search

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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)

Ten patients with active acute myelogenous leukemia (AML) received either 13 cis retinoic acid (RA) + alpha interferon (IFN) or recombinant human granulocyte-macrophage colony-stimulating factor (rhGM-CSF) for 3 days. Cell cycle measurements were performed before and at the conclusion of administration of the bioactive agent(s). The proliferative rate of the leukemia cells in vivo decreased in four of five patients receiving RA+IFN whereas in one patient proliferation accelerated. The proliferative rate of AML cells accelerated in three of the five patients who received rhGM-CSF and slowed in two patients. These data show that while the proliferative rate of AML cells can be altered in vivo, the effect produced by bioactive agents may be the opposite of the desired effect. Furthermore, the studies described here demonstrate the usefulness of marrow biopsies for measuring the percent S-phase cells and the importance of measuring the duration of S phase so that the effects of bioactive agents on the cell cycle time of the leukemia cells can be determined.
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PMID:Alteration of the proliferative rate of acute myelogenous leukemia cells in vivo in patients. 142 77

Infections during granulocytopenia are major complications of autologous bone marrow transplantation (ABMT). Since recombinant human granulocyte-macrophage colony-stimulating factor (rhuGM-CSF) has proved to accelerate bone marrow recovery after cytostatic chemotherapy, we studied its effects on hematopoietic regeneration and on infectious complications after total body irradiation (TBI) and high-dose chemotherapy followed by ABMT. Eighty-one patients with acute lymphoblastic leukemia (ALL) in complete remission (CR) or with non-Hodgkin's lymphoma (NHL) in CR or partial remission were randomized in a double-blind, placebo-controlled trial. They received either rhuGM-CSF 250 micrograms/m2 (Escherichia coli-derived) daily by continuous infusion after ABMT, or placebo. Treatment was continued until the neutrophil counts reached greater than 500/microL for 1 week. The maximum treatment duration was 30 days. Thirty-nine patients in the rhuGM-CSF group and 40 patients in the placebo group were evaluable. The median time needed to reach a neutrophil count of 500/microL was 15 days with rhuGM-CSF and 28 days with placebo (P = .0001). Bacterial infections occurred in 14 (35.9%) of the patients with rhuGM-CSF and in 25 (62.5%) of the patients given the placebo (P = .024). Nine of the 14 bacterial infections in the rhuGM-CSF group and 20 of the 25 infections in the placebo group were diagnosed within the first 10 days after ABMT. Capillary leakage and a reversible fluid retention were seen in five of the rhuGM-CSF-treated patients. Patients treated with rhuGM-CSF had lower serum protein and albumin levels than patients in the placebo group. There was no statistically relevant difference in overall survival between the two groups (P = .47). Relapse occurred in 14 (34%) patients with rhuGM-CSF and in 18 (45%) patients with placebo. We conclude that continuous infusion of rhuGM-CSF after ABMT accelerates the regeneration of granulocytes and reduces the number of bacterial infections.
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PMID:A controlled trial of recombinant human granulocyte-macrophage colony-stimulating factor after total body irradiation, high-dose chemotherapy, and autologous bone marrow transplantation for acute lymphoblastic leukemia or malignant lymphoma. 142 90

The neutropenia-related morbidity and mortality occurring after autologous bone marrow transplantation (ABMT) is increased by marrow purging procedures. While phase I through III clinical trials showed the enhancing activity of recombinant human granulocyte-macrophage colony-stimulating factor (rhGM-CSF) on neutrophil recovery after ABMT with unpurged marrow, controversial results have been reported when purged marrow was used. Therefore, it was the aim of the present study to evaluate the efficacy of rhGM-CSF administration in a group of patients (n = 15) with lymphoid malignancies transplanted in complete remission with mafosfamide-purged (n = 10) or unpurged (n = 5) marrow. Mafosfamide concentrations used for marrow purging were evaluated on an individual basis by means of a recently described technique that destroys the granulocyte-macrophage (granulocyte-macrophage colony-forming units [CFU-GM]) compartment, but spares 50% of the more primitive stroma adherent colony-forming cells (CFU-Blast). rhGM-CSF (10 micrograms/kg/d) was started within 24 hours of ABMT and administered in a 4-hour infusion daily until the absolute neutrophil count (ANC) reached 500 x 10(6)/L and then for 7 more days. Patients receiving mafosfamide-purged or unpurged marrow failed to show any difference in terms of median number of days required to achieve an ANC > or = 500 x 10(6) (13 v 14.0, P > .4) cells/L. As compared with retrospective controls, granulocytic recovery was reduced by a median time of 11 (P < or = .0005) and 5 (P < or = .0005) days for patients grafted with purged and unpurged marrow, respectively. The number of CFU-GM (mean +/- SD) infused per kilogram of body weight was significantly lower in patients who received purged autografts as compared with those receiving unpurged autografts (0.85 +/- 0.79 x 10(4) v 15.7 +/- 9.2 x 10(4), P < or = .0005). The dose of CFU-GM progenitors infused per kilogram of body weight did not correlate (r = .031, P > .05) with the time required to reach an ANC > or = 500 x 10(6) cells/L. The number of CFU-Blast (mean +/- SD) infused per kilogram of body weight was not significantly different between patients who received purged or unpurged autografts (5.05 +/- 2.51 x 10(3)/kg v 6.18 +/- 2.66 x 10(3)/kg, P < or = .375). A statistically significant correlation (r = -.658, P < or = .05) was observed between the number of CFU-Blast infused and the number of days required to reach an ANC > or = 500 x 10(6) cells/L.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Use of recombinant human granulocyte-macrophage colony-stimulating factor in patients with lymphoid malignancies transplanted with unpurged or adjusted-dose mafosfamide-purged autologous marrow. 142 13

The pleiotropic biological actions of leukaemia inhibitory factor (LIF) on haemopoietic cells (macrophages and megakaryocytes), hepatocytes, osteoblasts, pre-adipocytes, embryonic stem cells, myoblasts and neuronal cells must be mediated through the interactions of LIF with specific cellular receptors. The demonstration by equilibrium binding analysis and autoradiography of LIF receptors on all of the above cells and cell lines suggests that each of these pleiotropic effects of LIF is mediated by direct interactions with the responding cells rather than by the indirect release of secondary cytokines. Despite the differing biological effects of LIF on these cells, equilibrium binding, kinetic analyses and receptor internalization studies have all suggested that these cells display essentially identical high affinity LIF receptors. Nevertheless, there is evidence on some cell types (granulocyte-macrophage colony-stimulating factor [GM-CSF] transgenic peritoneal cells and F9 embryonal carcinoma cells) for a second class of low affinity LIF receptors (Kd = 1.5 nM versus Kd = 30 pM for high affinity receptors) which, LIF receptors (Kd = 1.5 nM versus Kd = 30 pM for high affinity receptors) which differ from the high affinity receptors only in kinetic dissociation rate. Moreover, the evidence suggests that low and high affinity receptors are structurally related and interconvertible, because detergent solubilization of LIF receptors from any cell type results in the quantitative conversion of high affinity receptors into low affinity receptors. As is the case for other related cytokine receptors, these data suggest that high affinity LIF receptors may be composed of two protein subunits--one responsible for LIF-specific low affinity binding and the other responsible for affinity conversion and cell signalling by the receptor. Such a model provides a possible explanation for the pleiotropy of LIF's biological actions.
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PMID:Distribution and binding properties of receptors for leukaemia inhibitory factor. 142 15

Interleukin 6 (IL-6) and leukaemia inhibitory factor (LIF) can have pleiotropic effects on different cell types. M1 myeloid leukaemic cells respond to IL-6 with activation of a terminal differentiation programme which includes activation of genes for certain haemopoietic regulatory proteins (IL-6, IL-1 alpha, IL-1 beta, granulocyte-macrophage colony-stimulating factor [GM-CSF], M-CSF, tumour necrosis factor and transforming growth factor [TGF] beta 1) and for receptors for some of these proteins, thus establishing a network of positive and negative regulatory cytokines. IL-6 and some other cytokines also induce during differentiation sustained levels of transcription factors that can regulate and maintain gene expression in the differentiation programme. M1 leukaemic cells induced to differentiate with IL-6 undergo programmed cell death (apoptosis) on withdrawal of IL-6, and can be rescued from apoptosis by IL-6, IL-3, M-CSF, G-CSF or IL-1, but not by GM-CSF. These differentiating leukaemic cells can also be rescued from apoptosis by the tumour promoter TPA (12-O-tetradecanoylphorbol-13-acetate) but not by the non-tumour-promoting isomer 4-alpha-TPA, and rescue from apoptosis can be achieved by different pathways. Apoptosis can also be induced in undifferentiated M1 leukaemic cells by expression of the wild-type form of the tumour suppressor p53 protein and IL-6 can rescue the cells from this wild-type p53-mediated apoptosis. There are clones of M1 cells that differentiate with IL-6 but not with LIF and another M1 clone that differentiates with either IL-6 or LIF. Differentiation induced by IL-6 or LIF is inhibited by TGF-beta 1. The pleiotropic effects of LIF, like those of IL-6, are presumably also in a network of interacting regulatory proteins.
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PMID:Regulation of leukaemic cells by interleukin 6 and leukaemia inhibitory factor. 142 20

Natural suppressor (NS) cells, which nonspecifically suppress immune responses, are generally found at sites of hemopoietic generation or regeneration. Murine bone marrow NS cells were activated by recombinant interleukin 3 (rIL-3) or recombinant granulocyte-macrophage colony-stimulating factor (rGM-CSF) and produced a soluble suppressor factor. In the present study, the soluble suppressor factor from bone marrow NS cells was found to be a potent inhibitor of myeloid colony formation at concentrations below those required for immunosuppression. NS cell supernatants inhibited the growth of granulocyte-macrophage colony-forming units (CFU-GM), granulocyte erythrocyte macrophage megakaryocyte colony-forming units (CFU-GEMM), and erythroid colony-forming units (CFU-E) to a similar extent. Neutralizing anti-transforming growth factor beta (TGF-beta) reversed the suppressive effects of the supernatants, suggesting that TGF-beta was involved in the suppression. The NS cell supernatants also inhibited the production of colony-stimulating activity by bone marrow stromal cells and the transcription of GM-CSF mRNA by activated T cells. These data suggest that NS cells are important regulators of hemopoiesis. NS cells, which are non-adherent, radioresistant non-T cells resident in the bone marrow, were shown to be sensitive to treatment with the lysosomotropic agent, L-leucine methyl ester, suggesting that the NS cells may be of large granular lymphocytic or monocytic lineage. Cytotoxicity studies revealed that cells in the NS population had natural cytotoxic (NC), but not natural killer (NK) activity.
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PMID:Bone marrow natural suppressor cells inhibit the growth of myeloid progenitor cells and the synthesis of colony-stimulating factors. 142 97

In neutrophils, the phorbol ester 12-O-tetradecanoylphorbol-13-acetate (TPA) induced the translocation of the Ca(++)- and phospholipid-dependent protein kinase, protein kinase C (PK-C) from the soluble to the particulate fraction. At the same time there was a corresponding increase in the amount of Ca(++)- and phospholipid-independent protein kinase activity recovered in the soluble fraction. This soluble Ca(++)- and phospholipid-independent protein kinase presumably reflects proteolytic activation of the particulate associated PK-C. Bone marrow and undifferentiated HL-60 cells also translocated PK-C to the particulate fraction in response to TPA but did not accumulate the soluble Ca(++)- and phospholipid-independent form of the enzyme. Similar results were obtained using HL-60 cells induced to differentiate with dimethyl sulphoxide (DMSO), recombinant human granulocyte-macrophage colony-stimulating factor (rh GM-CSF) or 1 alpha,25-dihydroxyvitamin D3. There was also no significant change in either the number or time of expression of differentiation-specific cell surface antigens observed on HL-60 cells induced to differentiate with either DMSO, 1 alpha,25-dihydroxyvitamin D3 or TPA in the presence of cyclosporin A, an agent reported to inhibit the proteolytic breakdown of PK-C to the Ca(++)- and phospholipid-independent form. Likewise, cyclosporin A did not affect the rate of extent of differentiation of primary bone marrow cell cultures. These results suggest that the proteolytically activated and phospholipid-independent form of PK-C is probably not involved in haemopoietic cell differentiation.
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PMID:Examination of the role of the proteolytically-activated form of protein kinase C in the differentiation of human haemopoietic cells. 142 3

Effects of recombinant human erythropoietin (rhEpo) and the combination of recombinant human interleukin-3 (rhIL-3) or recombinant human granulocyte-macrophage colony-stimulating factor (rhGM-CSF) with rhEpo on erythroid colony formation were examined in vitro in 13 patients with aplastic anemia and 16 with myelodysplastic syndromes (MDS). The methylcellulose cultures of marrow cells from normals and the patients yielded no erythroid colonies in the absence of rhEpo. In normals, CFU-E and BFU-E colony formation was significantly increased by adding either rhIL-3 or rhGM-CSF with rhEpo, compared with rhEpo alone, and rhIL-3 was more potent than rhGM-CSF to form colony-forming units and burst-forming units of erythroid (CFU-E) (BFU-E) colonies. By adding rhIL-3 with rhEpo, CFU-E colony formation was increased in half of patients with RA, compared with rhEpo alone, and by rhGM-CSF, in one third. Approximately one third or one fourth of the patients with MDS showed increased BFU-E colonies when rhIL-3 or rhGM-CSF were added to rhEpo. Cultures containing rhIL-3 or rhGM-CSF with rhEpo yielded larger numbers of BFU-E colonies in half of the patients with nonsevere aplastic anemia than those containing rhEpo alone. These observations suggest that the combination of these growth factors, especially rhIL-3 with rhEpo, is applicable to the treatment of anemia in some patients with aplastic anemia and MDS.
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PMID:In vitro study of erythropoiesis in patients with aplastic anemia and myelodysplastic syndromes: a possible tool for prospective determination of the clinical effectiveness of growth factors. 142 42

Morphological hallmarks of inflammatory and degenerative diseases of the brain are hypertrophy of astrocytes and accumulation of macrophages recruited from circulating blood monocytes and/or from resident macrophages, the so-called microglial cells. Recently, production of granulocyte-macrophage colony-stimulating factor (GM-CSF) by astrocytes has been suggested to contribute to the macrophage response. Here we report that in addition to GM-CSF, murine astrocytes also produce macrophage (M)-CSF upon stimulation with tumor necrosis factor alpha, interleukin-1 and lipopolysaccharides. The bioactivity detected in supernatant of astrocytes was characterized using the M-CSF-dependent cell line M-NFS-60 and neutralizing anti-M-CSF antibodies. RNase protection analysis showed M-CSF mRNA already in unstimulated astrocytes without striking up-regulation by the stimuli. Thus, in astrocytes the expression of the M-CSF gene is predominantly regulated at the posttranscriptional level.
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PMID:Production of macrophage colony-stimulating factor by astrocytes and brain macrophages. 143 Jan 51

A Phase I study was conducted to determine whether the addition of recombinant human granulocyte-macrophage colony-stimulating factor (rhGM-CSF) to a combined 5-fluorouracil (5-FU) and folinic acid (FA) regimen would allow an escalated starting dose of 5-FU. FA (500 mg/m2) was administered as a 2-hour infusion on days 1 through 5, with 5-FU administered as a bolus injection 1 hour after the initiation of FA. Fifteen patients were enrolled in the trial; six were entered at a dose level of 375 mg/m2 of 5-FU, six at 450 mg/m2, and three at 540 mg/m2. rhGM-CSF was administered subcutaneously on days 6 through 15. A course of therapy was repeated every 28 days. Serious toxicity was observed at 450 mg/m2, with two patients developing grade 3 mucositis and one, grade 4 mucositis. Dose-limiting toxicity occurred at 540 mg/m2, at which point three patients developed grade 4 mucositis. One patient with metastatic colon cancer who received 5-FU at 540 mg/m2 achieved a partial response. Because of this persistent mucositis, the addition of rhGM-CSF used in this schedule would not allow an increased starting dose of 5-FU.
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PMID:Phase I study of 5-fluorouracil with folinic acid combined with recombinant human granulocyte-macrophage colony-stimulating factor. 144 7

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