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)

The effect of granulocyte-macrophage colony-stimulating factor (GM-CSF) on bone-marrow and peripheral-blood progenitor cells was investigated in a three-phase study in 13 patients with sarcoma. In the first phase patients were given GM-CSF alone. In phase II, which started a week after completion of phase I, patients received a course of cytotoxic chemotherapy, then a course of GM-CSF. Phase III consisted only of cytotoxic chemotherapy. GM-CSF (phase I) alone produced an 18-fold increase in peripheral blood granulocyte-macrophage colony-forming units (CFU-GM) and an 8-fold increase in erythroid burst-forming units (BFU-E) in the peripheral blood. GM-CSF had no effect on bone-marrow CFU-GM and BFU-E in the group as a whole. Three patients were investigated after phases II and III. GM-CSF increased the absolute number of peripheral blood CFU-GM by approximately 60-fold compared with the pretreatment baseline. These effects of GM-CSF may be of clinical importance with regard to facilitating the harvest of peripheral blood progenitor cells for autotransplantation.
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PMID:Granulocyte-macrophage colony stimulating factor expands the circulating haemopoietic progenitor cell compartment in man. 289 9

The CD11b (Mol) molecule is a member of a family of surface glycoproteins that are essential for adhesion-dependent granulocyte functions. Brief exposure of granulocytes to human granulocyte-macrophage colony-stimulating factor (GM-CSF) in vitro increases the surface expression of CD11b and increases granulocyte adhesiveness. To assess the possible in vivo significance of these observations we studied the effect of GM-CSF on CD11b, CD11a (LFA-1), and CD11c (gp 150, 95) expression on granulocytes from nine adult patients with sarcoma who were receiving GM-CSF as part of a phase I trial. GM-CSF was administered as a continuous infusion at a dose of 32 or 64 micrograms/kg/d. Granulocyte CD11b, CD11a, and CD11c expression was determined by indirect immunofluorescence staining of whole blood, thereby minimizing in vitro manipulation. A transient leukopenia developed within 15 minutes of initiation of GM-CSF treatment that was associated with a marked increase in the surface antigen density of CD11b. A mean 1.7-fold increase (P = .001) in the percentage of CD11b-positive granulocytes and a mean 2.1-fold increase (P = .002) in CD11b surface antigen density was noted after 12 hours of treatment. No change in CD11a or CD11c expression was observed over the first 12 hours. The level of CD11b expression was followed in six patients for up to 5 days of treatment with GM-CSF. Compared with the 12-hour value, three of six patients showed a subsequent decrease in CD11b expression, two remained constant, and one showed a continued increase in CD11b surface density. Fluorescence-activated cell sorting of granulocytes into high- and low-density CD11b-positive groups revealed a preponderance of immature myeloid forms in the low-density CD11b fraction, which suggests that the late decrease in CD11b expression in some patients may be related to a greater proportion of circulating immature myeloid forms in the peripheral blood. This study suggests that GM-CSF administered as a continuous infusion rapidly upregulates the expression of granulocyte CD11b in vivo. The influence of this phenomenon on in vivo granulocyte aggregation may be clinically relevant with regard to the toxicity of GM-CSF and deserves further investigation.
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PMID:Granulocyte-macrophage colony-stimulating factor induces the expression of the CD11b surface adhesion molecule on human granulocytes in vivo. 304 45

In order to identify factors that influence expression by retroviral vectors in hemopoietic cells, we have compared viral RNA levels in cells infected with several different recombinant viruses. All of the vectors tested carry the neomycin resistance gene and provide for the insertion of a second gene which, in these studies, comprised sequences from the myc or myb oncogenes or the gene encoding granulocyte-macrophage colony-stimulating factor. The vectors utilize two different strategies for the coexpression of the two genes: alternate splicing and the use of a separate internal promoter. We found that expression in hemopoietic cells could be increased by substituting sequences from the myeloproliferative sarcoma virus long terminal repeat for those of the Moloney murine leukemia virus long terminal repeat. However, none of the vectors examined was able to express a second gene at levels equivalent to those achieved by the parental vectors carrying only the neomycin resistance gene. The reasons for this varied with the different vectors and included inefficient splicing and/or a reduction in the level of unspliced transcripts upon insertion of a second gene. Although the basis of the latter phenomenon is not clear, it is probably related to the position--near the 5' long terminal repeat--at which the second gene was inserted, since insertion of the same genes near the 3' end of another vector had no effect on viral RNA levels. In an attempt to circumvent some of these problems, we constructed a vector that employs an internal beta-actin promoter. Although this vector could express granulocyte-macrophage colony-stimulating factor sequences in a responsive hemopoietic cell line, the level of granulocyte-macrophage colony-stimulating factor produced was disappointingly low. The results from these studies suggest approaches to the design of improved vectors for effective expression of genes in hemopoietic cells.
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PMID:Comparison of expression in hemopoietic cells by retroviral vectors carrying two genes. 337 74

We previously demonstrated that granulocyte-macrophage colony-stimulating factor (GM-CSF) induced sustained increases in cycling of myeloid progenitors in patients with sarcoma. However, decreased proliferation of these cells to a slow- or noncycling state, below pretreatment levels, occurred within 1 to 2 days and maintained for at least 1 week after discontinuation of GM-CSF. To assess possible biological differences in GM-CSF and granulocyte (G)-CSF in such kinetic effects, we evaluated cycling status of marrow progenitors before, during, and after administration of recombinant human G-CSF (5 micrograms/kg/d subcutaneously [s.c.]) to six patients with sarcoma for 8 days. On the last (8th) day of G-CSF treatment, cycling rates of colony-forming units-granulocyte/macrophage (CFU-GM), burst-forming units-erythroid (BFU-E), and multipotent colony-forming units (CFU-GEMM) were enhanced 1.5- to 1.9-fold, to values of 40 +/- 10% to 58 +/- 5%. In sharp contrast to patients receiving GM-CSF, however, progenitor cells from patients off G-CSF treatment for 2 to 4 days were still rapidly proliferating. These differences in proliferative kinetics may be of use for design of clinical trials to efficaciously utilize these growth factors.
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PMID:Kinetic response of human marrow myeloid progenitor cells to in vivo treatment of patients with granulocyte colony-stimulating factor is different from the response to treatment with granulocyte-macrophage colony-stimulating factor. 750 71

Multilineage colony formation was evaluated from healthy donors' bone marrow (BM), peripheral blood (PB) and cord blood (CB) and compared with blood stem cell (BSC) harvests of sarcoma patients mobilized with granulocyte-macrophage colony-stimulating factor (GM-CSF). The test was a modified CFU-blast assay performed with and without an irradiated foetal mesenchymal cell layer (HFFF). These non-transformed mesenchymal cells served as a good source of haematopoietically active stroma cells in that cytokine expression patterns (interleukin (IL)-6, granulocyte (G)-CSF, GM-CSF) and adhesion molecules on HFFF cells were qualitatively identical to BM-derived fibroblasts, but the expression density of adhesion receptors was significantly higher. This HFFF layer stimulated blood stem cells of GM-CSF-treated patients significantly more than a cocktail of exogenous growth factors with IL-1, IL-6, and stem cell factor (SCF). The reverse was true for multilineage colonies from healthy donors' PB, BM, and CB. According to these results, stem cells of GM-CSF-treated patients are functionally distinct due to their dependence on stroma-derived factors and/or matrix-adhesion interactions and can be reproducibly evaluated on these mesenchymal cells.
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PMID:Mixed haematopoietic colony formation via immature blast cell clusters on foetal mesenchymal cell layers distinguishes stem cells from peripheral blood, cord blood, bone marrow and blood stem cells mobilized by granulocyte-macrophage colony-stimulating factor. 754 89

PIXY321 is a novel fusion protein of recombinant human granulocyte-macrophage colony-stimulating factor and interleukin-3 that exhibits biologic effects of both its parent cytokines in vitro and in preclinical studies. To evaluate the clinical safety and hematopoietic effects of this hybrid cytokine, PIXY321 was administered by subcutaneous injection twice daily at doses of 25 to 1,000 micrograms/m2/day over 14 days to 24 patients with sarcoma before chemotherapy as part of a phase I trial. The treatment was associated with significant increases in white blood cell, neutrophil, platelet, and reticulocyte counts (all P < .001). The increase in neutrophil count was dose-related and was seen during treatment with the cytokine, whereas the increase in platelet count was gradual and peaked after the cessation of the cytokine treatment and was not clearly dose related. PIXY321 treatment also increased bone marrow (BM) cellularity and the percentage of BM cells in S phase (P < .001). In addition, there was a significant increase in the number of CD34+ cells and committed and multipotential progenitors in the peripheral blood. The ex vivo expansion capacity of peripheral blood and BM progenitor cells was preserved after the in vivo treatment with PIXY321. The treatment was well tolerated, with the most common side-effect being injection site reactions. The results of this study show the biologic and clinical activity of a genetically engineered fusion molecule of two hematopoietic cytokines in humans with normal hematopoietic function.
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PMID:In vivo biologic effects of PIXY321, a synthetic hybrid protein of recombinant human granulocyte-macrophage colony-stimulating factor and interleukin-3 in cancer patients with normal hematopoiesis: a phase I study. 766 57

This review is a brief overview of recent advances in biology as well as in potential clinical application of recombinant human granulocyte-macrophage colony-stimulating factor (rhGM-CSF). Biologically active rhGM-CSF is a recombinant human protein expressed in Escherichia coli. GM-CSF is produced by nontransformed (T-lymphocytes, trophoblasts, keratinocytes, osteoblasts, tracheal epithelial cells, renal mesangial cells, endothelial cells, macrophages, fibroblasts, smooth muscle cells) and transformed (murine plasmocytoma, bladder carcinoma HIBY cell line, anaplastic carcinoma of the gall bladder, Yoshida sarcoma cell line, HC3T3-osteoblast cell line) cells. RhGM-CSF increases the number of circulating neutrophils, monocytes and eosinophils and increases chemotactic, microcidal killing and cytotoxic activity of monocytes and granulocytes. The present clinically relevant uses of rhGM-CSF two general areas: restoration of haematopoietic dysfunction by raising cell counts from suppressed to normal levels, and augmentation of host defence against infection. Thus, rhGM-CSF reduces risk of infections. In addition, rhGM-CSF may increase tumour cell destruction in some malignant diseases. RhGM-CSF produces dose-dependent toxicity consisting of myalgic fever, fluid retention and serosal effusions.
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PMID:[Biologic effects and possible therapeutic use of the granulocyte-macrophage colony-stimulating factor. Modern treatment of leukopenia]. 772 60

We gave the "optimal" dose of doxorubicin (75 mg/m2) with ifosfamide (5 g/m2), the two most active agents against metastatic soft-tissue sarcomas, in an attempt to determine the feasibility of administration of these doses in combination. To offset complications arising from the myelosuppression associated with this regimen, recombinant human granulocyte-macrophage colony-stimulating factor (rhGM-CSF, 250 micrograms/m2 daily) was given by subcutaneous injection during the intervals between courses of chemotherapy. In all, 111 patients with progressive metastatic soft-tissue sarcoma were entered, 104 of whom were eligible for preliminary analysis. Use of rhGM-CSF allowed full doses of chemotherapy to be given to the majority of patients, although cumulative thrombocytopenia became a dose-limiting toxicity during subsequent courses. Two treatment-related deaths occurred, one from presumed septicemia while the patient was at home and one as a result of cardiac failure. An overall response rate of 45% was achieved. The activity of this high-dose combination (with rhGM-CSF) will be compared with that of standard treatment doses in a future phase III randomized trial.
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PMID:The use of recombinant human granulocyte-macrophage colony-stimulating factor with combination chemotherapy in the treatment of advanced adult soft-tissue sarcomas: early results from the EORTC Soft-Tissue and Bone Sarcoma Group. 845 7

In humans, tumor necrosis factor (TNF) treatment has been associated with characteristic changes in circulating white blood cell populations (leukopenia followed by leukocytosis) and increased cell-surface expression of integrins. A similar pattern of effects on leukocytes occurs with granulocyte-macrophage colony-stimulating factor (GM-CSF) and G-CSF treatment. To determine whether these effects were caused directly by TNF or as a result of secondary CSF release, G-GM-, and M-CSF levels were measured after TNF infusion (9.6 x 10(6) U/mg protein; < 5.0 endotoxin U/mg protein) in cancer patients during two phase I trials of TNF. One patient with aggressive fibromatosis was treated with TNF alone (200 micrograms/m2, days 1-5 every third week) and 10 patients (four colon cancer, four head and neck cancer; one melanoma; one sarcoma) received mitomycin C (15 mg/m2, day 1) followed by TNF (60-180 micrograms/m2, days 1-3) every sixth week. All treatments were given IV, mitomycin C over 5 minutes and TNF over 2 hours. Serum samples were collected at times 0 (before mitomycin C and TNF) and 1, 2, 4, 6, 12, and 24 hours after TNF initiation on day 1 and at similar times on subsequent treatment days. M-CSF samples were analyzed by radioimmunoassay (RIA) and G-CSF and GM-CSF by ELISA. The mean baseline M-CSF levels in normal control subjects (n = 12) was 158.4 +/- 36.2 (SD) U/mL, and in pretreatment cancer patients (n = 10) 235.7 +/- 60.9 U/mL (p = 0.004, Wilcoxon test). M-CSF levels increased 4 hours after TNF initiation (mean 354.7 +/- 96.3 U/mL; p = 0.020), remained elevated at 6 hours (305.6 +/- 45.4 U/mL; p = 0.004, Wilcoxon signed-rank test), and subsequently declined. This pattern was seen in all patients treated with TNF, whether treatment was TNF alone or TNF with mitomycin C. In patients treated with mitomycin C and TNF, G-CSF levels increased at 4 hours after TNF initiation (mean 3886 +/- 2009 pg/mL; p = 0.004), remained elevated at 6 hours (mean 2140 +/- 1131 pg/mL; p = 0.004), and subsequently declined. GM-CSF levels were not measurable before or after treatment with TNF. The changes in all three endogenous cytokines were not temporally related to the previously described leukopenia and integrin upregulation on circulating leukocytes and, therefore, appear to be unrelated to this event. However, release of endogenous G-CSF and M-CSF under the influence of TNF does temporally coincide with the previously described leukocytosis, suggesting a possible role for these endogenous cytokines in the release of bone marrow cellular stores.
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PMID:Tumor necrosis factor administration is associated with increased endogenous production of M-CSF and G-CSF but not GM-CSF in human cancer patients. 853 92

Murine neuroblastoma, neuro-2a, was transduced with the retroviral vector MFG-granulocyte-macrophage colony-stimulating factor (GM-CSF), to examine immune stimulation conferred by localized GM-CSF production. Expression of murine GM-CSF by neuro-2a (N-2a/GM) significantly reduced its tumorigenicity. Moreover, immunization of mice with irradiated N-2a/GM cells resulted in a significant protective effect against live tumor challenge 14 days later. Approximately 41% of mice immunized with irradiated N-2a/GM versus 0% of those vaccinated with irradiated parental tumor survived. Surviving mice were rechallenged after 50 days with wild-type neuro-2a or with the Sa1 syngeneic sarcoma to discern whether the generated immunity was durable and tumor specific. All mice survived wild-type neuro-2a challenge, whereas none survived inoculation with Sa1. Because both CD4+ and CD8+ T cells were necessary during priming to this MHC class Ilo, II-tumor, these data indicate that major histocompatibility complex (MHC) class I+, II+ antigen-presenting cells (APCs) were required for the T-cell antitumor response. Co-expression of GM-CSF and IFN-gamma, both of which have immunostimulatory activities on antigen-presenting cells, abrogated the tumorigenic potential of this tumor and increased immunogenicity over N-2a/IFN but not N-2a/GM. Vaccination of mice with preexisting retroperitoneal tumors with irradiated N-2a/GM and irradiated N-2a/IFN/GM improved survival. There was a trend for nonirradiated transduced cells to be more immunogenic than their irradiated counterparts. Immunohistochemistry of tissues from the vaccination site revealed a pronounced macrophage infiltration associated with nonirradiated N-2a/GM and N-2a/IFN/GM. These data suggest that vaccination involving nonirradiated neuroblastoma cells transduced with genes that stimulate APCs may be a useful approach in stimulating antitumor T-cell responses.
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PMID:Effective immunization against neuroblastoma using double-transduced tumor cells secreting GM-CSF and interferon-gamma. 873 94

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