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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)

To compare the ability of different cytokines and other molecules to enhance the immunogenicity of tumor cells, we generated 10 retroviruses encoding potential immunomodulators and studied the vaccination properties of murine tumor cells transduced by the viruses. Using a B16 melanoma model, in which irradiated tumor cells alone do not stimulate significant anti-tumor immunity, we found that irradiated tumor cells expressing murine granulocyte-macrophage colony-stimulating factor (GM-CSF) stimulated potent, long-lasting, and specific anti-tumor immunity, requiring both CD4+ and CD8+ cells. Irradiated cells expressing interleukins 4 and 6 also stimulated detectable, but weaker, activity. In contrast to the B16 system, we found that in a number of other tumor models, the levels of anti-tumor immunity reported previously in cytokine gene transfer studies involving live, transduced cells could be achieved through the use of irradiated cells alone. Nevertheless, manipulation of the vaccine or challenge doses made it possible to demonstrate the activity of murine GM-CSF in those systems as well. Overall, our results have important implications for the clinical use of genetically modified tumor cells as therapeutic cancer vaccines.
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PMID:Vaccination with irradiated tumor cells engineered to secrete murine granulocyte-macrophage colony-stimulating factor stimulates potent, specific, and long-lasting anti-tumor immunity. 809 19

Interleukin 2 (IL-2) administration is known to induce marked eosinophilia. To evaluate the potential role of eosinophils as anti-tumor effectors and to understand the direct or indirect effects of IL-2 on eosinophils, the physical and functional characteristics of eosinophils obtained during IL-2 therapy were compared with those of eosinophils obtained from the same patients before IL-2 administration, or from healthy donors. The treatment schedule consisted of subcutaneous (s.c.) injections of IL-2, and was performed in 7 patients with small-cell lung cancer (SCLC) in advanced stage. A marked increase of hypodense cells in peripheral blood was found to correlate with eosinophil activation in patients undergoing IL-2 therapy. Cytotoxic activity of eosinophils against allogeneic tumor cells (SCLC, K562 and melanoma lines), as assessed by direct and antibody (Ab)-dependent cellular cytotoxicity (ADCC), was markedly increased during IL-2 therapy. Conversely, eosinophils obtained before treatment, like those of healthy donors, lacked any activity against tumor cells. Sera from IL-2-treated, but not from untreated, patients, significantly improved the in vitro survival and anti-tumor cytotoxicity of eosinophils from healthy donors. Comparable effects were obtained with eosinophils cultured with interleukin 5 (IL-5), granulocyte-macrophage colony-stimulating factor (GM-CSF) and, to a lesser extent, by tumor necrosis factor-alpha (TNF alpha), while no direct activity was mediated by IL-2. A 91% inhibition of eosinophil ADCC was found after pre-incubation of the sera of IL-2-treated patients with anti-IL-5 but not with anti-GM-CSF or anti-TNF alpha Ab. IL-5 mRNA expression was detected in peripheral-blood lymphocytes (PBL) obtained 4 hr after IL-2 injection during the second and third week of IL-2 therapy. Phenotypic analysis of eosinophils from IL-2-treated patients showed enhanced expression of activation markers, including Fc gamma RII (CD32), HLA-DR, CR3 (CD11b) and CRI (CD35). These findings suggest that a significant cytotoxicity against tumor cells can be mediated by eosinophils after indirect, IL-5-mediated in vivo activation by IL-2, and that eosinophils may be involved in the anti-tumor response(s) induced in vivo by IL-2.
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PMID:In vitro anti-tumor activity of eosinophils from cancer patients treated with subcutaneous administration of interleukin 2. Role of interleukin 5. 838 11

Tumor metastasis is the primary cause of death for cancer patients. The metastatic cascade requires successful tumor cell invasion into and through vascular and parenchymal barriers. We have shown that autocrine motility factor (AMF, autotaxin) and the insulin-like growth factors (IGFs) induce tumor-cell migration. Since granulocyte-macrophage colony-stimulating factor (GM-CSF) has been shown to prime neutrophils for chemotaxis, we have therefore studied the influence of GM-CSF upon tumor cells and report that GM-CSF stimulates migration of these cells in a dose-dependent fashion. The ED50 for A2058 human melanoma cell line chemotaxis to GM-CSF is approx. 60 pM. The motile response to GM-CSF was additive to that of IGF-I and AMF, both of which are potent attractants for tumor cells. Pre-treatment of cells for 2 hr with non-toxic concentrations of pertussis toxin (PT) or amiloride resulted in a 50% inhibition of chemotaxis to GM-CSF. Therefore, GM-CSF, through PT- and amiloride-sensitive signal pathways, is a potent attractant for melanoma cells, the response to which is additive to that of other attractants. The presence of the GM-CSF receptor in A2058 melanoma cells was indicated by Northern-blot analysis which identified message transcripts of 2.1 and 3.0 kb. These data emphasize the versatility of the melanoma cell migration response to an array of cytokines, including GM-CSF.
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PMID:Granulocyte-macrophage colony-stimulating factor induces human melanoma-cell migration. 847 54

Granulocyte-macrophage colony-stimulating factor (GM-CSF) has been reported to induce antitumor activity in peripheral blood monocytes. We examined the role of GM-CSF on bone marrow (BM) macrophages in inducing antibody-dependent cellular cytotoxicity (ADCC) against murine and human tumor cells in vitro and in vivo with the aim of applying this approach in an autologous bone marrow transplantation (BMT) setting. GM-CSF induced a potent ADCC in BM macrophages against a murine melanoma in vitro. Treatment with GM-CSF alone or with antibody alone had no effect, whereas therapy with combination of both these agents resulted in a significant reduction in dissemination of melanoma both in a nontransplant as well as in BMT settings, with results being more optimal in the latter setting. Adoptive transfer of BM macrophages harvested from mice undergoing therapy with GM-CSF plus antibody significantly reduced the dissemination of melanoma in secondary recipients but only after irradiation, not in intact mice. GM-CSF also induced significant ADCC in human BM macrophages against a melanoma and a lymphoma in vitro and against a lymphoma implanted in nude mice in vivo. Again, these effects were more optimal after chemotherapy. These data suggest that treatment with GM-CSF plus tumor-specific monoclonal antibodies after BMT may induce an antitumor effect and help eradicate the minimal residual disease.
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PMID:Granulocyte-macrophage colony-stimulating factor-induced antibody-dependent cellular cytotoxicity in bone marrow macrophages: application in bone marrow transplantation. 850 82

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

The use of immunomodulating gene therapy in the treatment of malignant disease is under intensive investigation. In this study, we examined the potential of melanoma-derived granulocyte-macrophage colony-stimulating factor (GM-CSF) to inhibit melanoma progression in a murine model. The HGH18 murine melanoma cell line was transfected with the murine GM-CSF gene in a SV40 expression vector that resulted in melanoma clones that produced varying amounts of GM-CSF. Syngeneic mice inoculated s.c. with HFH18 parental melanoma cells or HFH18 cells transfected with the GM-CSF gene n the noncoding 3'-5' orientation [HFH18/GM-CSF(-) cells] develop large tumors that reach a mean tumor volume of 3300 mm3 by day 30. In contrast, animals inoculated with two melanoma clones producing high levels of GM-CSF [HFH18/GM-CSF(++) and HFH18/GM-CSF(+ + +)] either completely reject the tumor cells or develop tumors with a mean volume of only 40 mm3. In comparison, animals inoculated with a melanoma clone producing low levels of GM-CSF [HFH18/GM-CSF(+)] develop large tumors averaging 2000 mm3, thus demonstrating a dose-response effect of tumor inhibition by melanoma-derived GM-CSF. Additionally, vaccination with irradiated GM-CSF-producing melanoma cells conferred optimal immunogenicity against a subsequent challenge with HFH18 cells. Tissue sections from excised GM-CSF-producing tumor cell inoculation sites but not from HFH18 parental or HFH18/GM-CSF(-) inoculation sites demonstrate a dense inflammatory infiltrate composed of neutrophils, tissue macrophages, and numerous CD4- and CD8-positive lymphocytes but few melanoma cells. Large numbers of dendritic cells and cells expressing the B7-2 costimulatory molecule are detected only within HFH18/GM-CSF(+ + +) melanoma inoculation sites. Our results lend further support to clinical trials of GM-CSF gene therapy in the treatment of advanced malignant melanoma, possibly by the recruitment of dendritic antigen-presenting cells.
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PMID:Antitumor effects of granulocyte-macrophage colony-stimulating factor production by melanoma cells. 861 71

We examined the host immune response to the poorly immunogenic B16-BL6 melanoma, which was transduced to secrete granulocyte-macrophage colony-stimulating factor (GM-CSF) (450 ng/10(6)/24 h). Tumor growth after subcutaneous inoculation was not significantly altered, although an influx of neutrophils and monocytes/macrophages was evident within tumors and draining lymph nodes (LNs). Immunization with irradiated transduced cells did not induce systemic immunity to the parental tumor. However, vaccination with transduced tumors significantly augmented in vivo sensitization of draining LN cells. These tumor-draining LN (TDLN) cells, when secondarily stimulated in vitro with anti-CD3 monoclonal antibodies and expanded in interleukin-2 (10 U/ml), exhibited greater release of GM-CST and interferon-gamma against tumor compared with TDLN cells from animals with parental tumor. In adoptive immunotherapy, activated LN cells draining transduced tumors mediated significant reductions of the numbers of established pulmonary metastases compared with LN cells draining parental tumor, which were ineffective. In addition, the therapeutic efficacy of LN cells draining transduced tumors was significantly better than LN cells primed in vivo with tumor cells admixed with Corynebacterium parvum, which we have previously described as an approach to generate immune cells. Thus, GM-CSF appears to be an important adjuvant in the induction of tumor immunity.
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PMID:Therapeutic efficacy of T cells derived from lymph nodes draining a poorly immunogenic tumor transduced to secrete granulocyte-macrophage colony-stimulating factor. 878 10

We performed a phase Ia/Ib trial of chimeric anti-GD2 monoclonal antibody 14.18 (ch14.18) in combination with recombinant human granulocyte-macrophage colony-stimulating factor (rhGM-CSF) to determine the maximum tolerated dose as well as immunologic and biologic responses to the regimen. Sixteen patients with metastatic malignant melanoma received escalating doses of ch14.18 (15-60 mg/m2) administered intravenously for 4 h on day 1. Twenty-four hours later, subcutaneous injections of rhGM-CSF were administered daily for a total of 14 days. Significant side effects were related to ch14.18 infusion and consisted of moderate to severe abdominal and/or extremity pain, blood pressure changes, headache, nausea, diarrhea, peripheral nerve dysesthesias, myalgias, and weakness. Dose-limiting toxicity was observed at 60 mg/m2 and consisted of severe hypertension, hypotension, and atrial fibrillation in one patient each, respectively. Significant increases in white blood cell count, granulocyte count, eosinophil count, and monocyte count occurred after rhGM-CSF treatment. Significant enhancement of in vitro and in vivo monocyte and neutrophil tumoricidal activity and antibody-dependent cellular cytotoxicity along with significant elevations in C-reactive protein and neopterin were observed. Despite these immunological and biological changes, no antitumor activity was seen. In short, the combination of ch14.18 and rhGM-CSF resulted in toxicity similar to that observed with ch14.18 alone without improvement in tumor response.
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PMID:Phase Ia/Ib trial of anti-GD2 chimeric monoclonal antibody 14.18 (ch14.18) and recombinant human granulocyte-macrophage colony-stimulating factor (rhGM-CSF) in metastatic melanoma. 881 95

A human melanoma cell line, MEL-P, expressing granulocyte-macrophage colony-stimulating factor (GM-CSF) and its specific receptor was newly established from a primary nodular lesion of a patient with a particularly unfavourable prognosis. Cytogenetic, immunophenotypic, cytokine and intercellular adhesion molecule (ICAM)-1 production analyses confirmed that this cell line was similar to the fresh melanoma cells from which it had been established. MEL-P constitutes a valuable model for the study of multistep tumour progression and the role of biologically active GM-CSF production in human malignant melanoma. Our results show a decreasing expression of HLA class I molecules during in vitro culture, when GM-CSF secretion attains the highest levels, and a constantly high production of ICAM-1. The inhibitory effect of GM-CSF antisense treatment on cellular growth might suggest the presence of an autocrine mechanism. On the whole, these data are consistent with the possible involvement of high GM-CSF production in the metastatic competence of melanoma cells through the autocrine mechanism of growth and/or the activation of other migration-related molecules by its local production in metastatic invasion.
Melanoma Res 1996 Jun
PMID:MEL-P, a GM-CSF-producing human melanoma cell line. 881 23

The necessity for prolonged tissue culture manipulations limits the clinical application of many form of gene therapy in patients with malignancies. We hypothesized that granulocyte-macrophage colony-stimulating factor (GM-CSF) cDNA in a plasmid expression vector could be effectively introduced into resting tumor cells, without the need for tissue culture propagation prior to or following transfection, and that efficient expression of transgenic GM-CSF by the transfected tumor cells would confer an effective immune response against tumors. GM-CSF cDNA in expression vectors was coated onto gold particles and accelerated with a gene gun device into mouse and human tumor cells. Human tumor tissue transfected within 4 hr of surgery produced significant levels of transgenic human GM-CSF protein in vitro. Human GM-CSF was readily detectable in serum and at the injection site following subcutaneous implantation of these transfected tumor cells into nude mice. Transfected and irradiated murine B16 melanoma cells produced > or = 100 ng/ml murine GM-CSF/10(6) cells per 24 hr in vitro for at least 10 days. The antitumor efficacy of this nonviral approach was tested using irradiated B16 tumor cells that were transfected with mGM-CSF cDNA and injected into mice as tumor "vaccine". Subsequent challenge of these mice with nonirradiated, nontransfected B16 tumor cells showed that 58% of the animals wer protected from the tumor by the prior vaccine treatment. In contrast, only 2% of control animals were protected by prior treatment with irradiated B16 cells transfected with the vector containing the luciferase gene. These results suggest that particle-mediated transfection of fresh tumor explants with cytokine cDNA is an effective and clinically attractive approach for cancer therapy.
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PMID:Particle-mediated gene transfer of granulocyte-macrophage colony-stimulating factor cDNA to tumor cells: implications for a clinically relevant tumor vaccine. 886 54


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