Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Retinoids show promise for prevention and treatment of cancers. In most cases, the mechanisms of their anticancer effects are poorly defined, but interactions with cytokine genes have been postulated in several systems. The effects of trans-retinoic acid (RA) on proliferation and cytokine gene expression in the human lung carcinoma Lu-CSF-1 are reported. RA exhibited cell-cycle independent inhibition of Lu-CSF-1 growth while stimulating endogenous interleukin-1 beta and suppressing granulocyte-macrophage colony-stimulating factor and IL-6 mRNAs. Reduction in granulocyte-macrophage colony-stimulating factor and IL-6 message was associated with reduced RNA stability and was translated into reduced protein levels. IL-1 beta mRNA stability was not decreased, and elevation in IL-1 beta protein levels was of a comparable magnitude to the increased amounts of its RNA. Growth inhibition similar to that following RA treatment could be reproduced by exposing cells to exogeneous IL-1 beta alone. These data suggest that changes in autologous cytokine gene expression might contribute to growth inhibition of lung cancer cells by RA.
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PMID:The antiproliferative effect of trans-retinoic acid is associated with selective induction of interleukin-1 beta, a cytokine that directly inhibits growth of lung cancer cells. 886 67

Increased local production of granulocyte-macrophage colony-stimulating factor (GM-CSF) by genetically modified tumor cells can induce specific antitumor cellular immunity. We constructed a recombinant adenovirus expressing murine GM-CSF and tested it for therapeutic efficacy in a syngeneic murine lung cancer model system. In vitro transduction of Lewis lung carcinoma cells with adenovirus-mGM-CSF suppressed tumor formation in syngenic mice (C57BL/6), and transduced and irradiated Lewis lung carcinoma cells induced regression of pre-established wild-type tumors without in vitro selection for transductants. Low, but significant, levels of specific antitumor cytotoxic T lymphocytes (CTL) were observed in mice inoculated with GM-CSF but not with reporter virus-transduced tumor cells. GM-CSF-transduced cells induced the accumulation of dendritic cells at the site of tumor, consistent with a mechanism involving improved tumor antigen presentation. These data suggest that transduction of tumor cells with recombinant GM-CSF adenovirus may be an effective and practical cancer gene therapeutic strategy.
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PMID:Genetic immunotherapy of established tumors with adenovirus-murine granulocyte-macrophage colony-stimulating factor. 901 22

To determine the mechanism responsible for the in vivo production of angiostatin that inhibits growth and metastasis in Lewis lung carcinoma (3LL), we implanted 3LL variant cells into the subcutis of syngeneic C57BL/6 mice. The tumors were infiltrated by macrophages and expressed high levels of steady-state mRNA for metalloelastase (MME). Successive passages (more than three) of cultures established from the tumors resulted in complete depletion of macrophages; steady-state MME mRNA, elastinolytic activity, and production of angiostatin (in the presence of plasminogen) were correspondingly reduced. Coculture of macrophages with either 3LL cells or their conditioned media containing granulocyte-macrophage colony-stimulating factor resulted in secretion of MME and production of angiostatin by the macrophages, suggesting that angiostatin is produced by tumor-infiltrating macrophages whose MME expression is stimulated by tumor cell-derived granulocyte-macrophage colony-stimulating factor.
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PMID:Macrophage-derived metalloelastase is responsible for the generation of angiostatin in Lewis lung carcinoma. 911 23

Bone marrow stroma produces positive and negative growth regulators which constitute the hematopoietic microenvironment. As many tumors metastasize to the bones, these regulators may also influence tumor growth. Hematopoietic cytokines may indeed exert both positive and negative effect on tumor growth. We report that, when mixed with tumor cells. adherent bone marrow cells inhibit primary tumor growth and metastases formation in mice transplanted with Lewis lung carcinoma or B16 melanoma. Peritoneal macrophages or lymph node cells did not exert any influence. The tumor inhibition was apparently due to soluble factor(s) released by marrow stromal cells. In cocultures with B16 melanoma cells, adherent bone marrow cells exerted a significant antiproliferative effect which was increased by previous culture of the bone marrow cells with granulocyte-macrophage colony-stimulating factor but not with macrophage colony-stimulating factor. Neither neutralizing antibodies against tumor necrosis factor-alpha, transforming growth factor-beta or interferon alpha/beta nor addition of Escherichia coli lipopolysaccharide to generate inflammatory cytokines could affect the antiproliferative effect of bone marrow stromal cells. The bone marrow stroma factor(s) which inhibit tumor growth might, therefore, be a novel growth regulator.
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PMID:Factor(s) from nonmacrophage bone marrow stromal cells inhibit Lewis lung carcinoma and B16 melanoma growth in mice. 1035 34

Tumors, such as the murine Lewis lung carcinoma (LLC), produce granulocyte-macrophage colony-stimulating factor (GM-CSF), which increases the proportion of CD34(+) hematopoietic progenitor cells in the bone marrow and in the periphery. This increase in peripheral CD34(+) cells had been attributed to the growth-promoting and mobilizing effects of the tumor-derived GM-CSF. However, the possibility that the CD34(+) cells of tumor bearers might have enhanced survival abilities had not been considered. The present studies showed a significant baseline level of apoptotic cells in short-term (5-day) cultures of normal CD34(+) cells containing GM-CSF plus stem cell factor (SCF), and a markedly greater level of apoptosis in cytokine-deficient cultures. In contrast, CD34(+) cells from tumor bearers did not undergo such levels of apoptosis, even in the absence of cytokines. This resistance to apoptosis could be conferred to normal CD34(+) cells by culture with LLC-conditioned medium. Studies to elucidate possible mechanisms for the resistance to apoptosis by tumor-exposed CD34(+) cells showed increased levels of the pro-life gene product bcl-2. Finally, the resistance of tumor-exposed CD34(+) cells to ligation of the Fas receptor, a known apoptotic trigger in hematopoietic cells, was compared with that of control CD34(+) cultures. Whereas approximately half of the normal CD34(+) cells underwent apoptosis in response to Fas ligation, the tumor-exposed CD34(+) cells resisted apoptosis, even though their surface Fas expression was greater than that of normal CD34(+) cells. Thus, our results show that the increased level of CD34(+) cells in tumor bearers is due not only to an increased growth and mobilization of CD34(+) cells as previously thought, but also may be due to an increased resistance to apoptosis that is conferred by tumor-derived products and is associated with increased expression of bcl-2.
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PMID:Increased resistance to apoptosis by bone marrow CD34(+)progenitor cells from tumor-bearing mice. 1040 79

Development of cytokine gene-modified autologous tumor vaccines must take into account the strictly paracrine physiology of cytokines whose expression at the tumor microenvironment is important for the successful induction of tumor-specific immunity. In this study, we investigated the efficacy of a tumor vaccine composed of inactivated autologous cells transfected with two plasmid vectors encoding a mutant membrane-bound murine granulocyte-macrophage colony-stimulating factor (MuGM-CSF) and murine interferon-gamma (MuIFN-gamma). Expression of both cytokines as cell surface ligands on the highly metastatic D122 clone of Lewis lung carcinoma led to abrogation of their tumorigenicity and metastatic phenotype. More importantly, vaccination with irradiated tumor cells expressing the membrane-bound GM-CSF and IFN-gamma induced a cytotoxic T lymphocyte (CTL) response that protected syngeneic mice against a subsequent challenge with D122 cells as a primary tumor in preimmunized mice as well as against lung metastasis developing after surgical removal of the primary tumor in naive mice. Autologous cells expressing the membrane-bound GM-CSF and IFN-gamma exhibited comparable efficacy as an antimetastatic vaccine to a vaccine composed of transfectants expressing wild-type secreted cytokine molecules. These results indicate that membrane-bound cytokines can cause enhanced immunogenicity when transfected into tumor cells for the induction of antitumor immunity.
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PMID:Induction of antitumor immunity with modified autologous cells expressing membrane-bound murine cytokines. 1063 8

The present study was designed to ascertain whether or not the pleural effusion and serum cytokine levels (granulocyte-macrophage colony-stimulating factor [GM-CSF], interleukin-10 [IL-10], and interferon-gamma [IFN gamma]) in lung cancer patients differ from tuberculous (TB) pleural effusion, in which a strong cellular immune reaction is found; and, whether cytokine levels are a prognostic factor in lung cancer patients with malignant effusion. A total of 202 lung cancer patients with malignant pleural effusion and 26 patients with TB pleural effusion were studied consecutively between 1995 and 1998. Serum and effusion cytokine levels were analyzed with ELISA assays. The results showed that pleural effusion GM-CSF and IL-10 levels were significantly higher than serum levels in both cancer and TB patients. Pleural effusion IFN gamma levels were significantly higher than serum levels in TB patients. IFN gamma levels in both pleural effusion and serum were significantly higher in TB patients than in those with cancer. No significant difference was found, between TB and cancer patients, in the serum or pleural effusion levels of either IL-10 or GM-CSF. The ratio of pleural effusion IFN gamma to serum IFN gamma, effusion IFN gamma to effusion IL-10, and effusion IL-10 to serum IL-10, were all significantly higher in TB than in cancer patients, suggesting a higher cellular activity and T-helper 1 (Th1) reaction in TB pleural effusion than in malignant effusions, which were predominantly Th2 type. Survival analysis showed no significant difference in lung cancer patients with different levels of these cytokines. It was concluded that lung cancer patients with malignant pleural effusion had poorer immune profiles than those with TB pleurisy, both locally and systemically; and the cytokine profiles were not prognostic factors for lung cancer patients with malignant pleural effusion.
Lung Cancer 2001 Jan
PMID:An analysis of cytokine status in the serum and effusions of patients with tuberculous and lung cancer. 1116 63

Granulocyte-macrophage colony-stimulating factor (GM-CSF) is a cytokine expressed in the non-small lung carcinoma cells (NSCLC). However, transcriptional regulation of GM-CSF is not well characterized in NSCLC. In this study we found that two cis-acting ETS family consensus sites are important for transcriptional regulation of GM-CSF in A549 human lung carcinoma cells. These two sites are located separately at around -40 and -100 bp from the transcription start site. Results of transient transfection assays with A549 cells indicated that ETS2 had a strong positive effect on GM-CSF promoter activity. Furthermore, this activity was enhanced by protein kinase C activator, phorbol 12-myristate 13-acetate (PMA), in an ETS consensus-dependent manner, while PMA could also enhance the expression level of ETS2. The protein kinase C inhibitors decreased GM-CSF promoter activity induced by the protein kinase C activator PMA. We also found that antisense ETS2 mRNA decreased PMA-induced GM-CSF promoter activity, supporting the possibility that ETS2 is involved in protein kinase C-induced GM-CSF transcriptional function. Endogenous expression of GM-CSF mRNA was increased by ETS2 transfection and the increased expression was further enhanced by PMA. These data indicate that GM-CSF is up-regulated by ETS2, a target of protein kinase C.
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PMID:ETS2 is involved in protein kinase C-activated expression of granulocyte-macrophage colony-stimulating factor in human non-small lung carcinoma cell line, A549. 1264 85

The role of glycogenolysis in normal and cancer cells was investigated by inhibiting glycogen phosphorylase (GP) with the synthetic inhibitor CP-91,149. A549 non-small cell lung carcinoma (NSCLC) cells express solely the brain isozyme of GP, which was inhibited by CP-91,149 with an IC(50) of 0.5 microM. When treated with CP-91,149, A549 cells accumulated glycogen with associated growth retardation. Treated normal skin fibroblasts also accumulated glycogen with G1-cell cycle arrest that was associated with inhibition of cyclin E-CDK2 activity. Overall, cells expressing high levels of brain GP were growth inhibited by CP-91,149 correlating with glycogen accumulation whereas cells expressing low levels of brain GP were not affected by the drug. Analyses of 59 tumor cell lines represented in the NCI drug screen identified that every cell line expressed brain GP but the profile was dominated by a few highly GP expressing cell lines with lower than mean GP-a enzymatic activities. The correlation program, COMPARE, identified that the brain GP protein measured in the NCI cell lines corresponded with brain GP mRNA expression, ADP-ribosyltransferase 3, and colony stimulating factor 2 receptor alpha in the 10,000 gene microarray database with similar correlation coefficients. These results suggest that brain GP is present in proliferating cells and that high protein levels correspond with the ability of CP-91,149 to inhibit cell growth.
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PMID:Inhibition of glycogen phosphorylase (GP) by CP-91,149 induces growth inhibition correlating with brain GP expression. 1294 73

Traditionally, non-small-cell lung cancer (NSCLC) is not thought of as an immunosensitive malignancy. However, recent clinical results with GVAX, a granulocyte-macrophage colony-stimulating factor (GM-CSF) gene-transduced autologous tumor vaccine, may suggest otherwise. This review summarizes immune-induced activity caused by GM-CSF protein and GM-CSF gene-transfected vaccines. Initial indication of use for GM-CSF protein (sargramostim) was to improve neutrophil recovery following cytotoxic chemotherapy. However, several trials involving patients with hematologic malignancy demonstrated improvement in survival related to delayed disease progression in patients receiving sargramostim in combination with chemotherapy. Subsequently, others explored potential antitumor activity with sargramostim in a variety of trials. Results did not consistently demonstrate sufficient antitumor activity to justify routine use of sargramostim as an anticancer agent. Preclinical work with GM-CSF gene-transfected vaccines, however, did demonstrate significant activity, thereby justifying clinical investigation. Patients with metastatic NSCLC who had previously failed chemotherapy demonstrated response to GVAX (3 of 33 complete responses) and dose-related improvement in survival (471 days vs. 174 days).
Clin Lung Cancer 2003 Nov
PMID:Granulocyte-macrophage colony-stimulating factor gene-transfected autologous tumor cell vaccine: focus[correction to fcous] on non-small-cell lung cancer. 1466 70


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