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 recent identification of tumor-associated antigens and tumor-associated antigen-derived peptide epitopes recognized by cytolytic T lymphocytes (CTLs) in the context of major histocompatibility complex (MHC) class I molecules has prompted the development of peptide-based vaccines for the treatment of human cancers, particularly melanoma. The design of such clinical protocols requires an understanding of the inherent immunogenicity of the peptide(s) and a choice of a facilitating adjuvant promoting cellular immunity against these peptides. We have evaluated the abilities of a series of defined synthetic peptide epitopes derived from MART-1/Melan-A, gp100, tyrosinase, and MAGE-3 or unfractionated peptides naturally presented by melanoma MHC molecules to elicit HLA-A2-restricted and melanoma-reactive CTLs from the peripheral blood of normal donors or patients with metastatic melanoma. Autologous peripheral blood dendritic cells (DCs), which were easily generated from all donors when cultured in the presence of recombinant human interleukin-4 and recombinant human granulocyte-macrophage colony-stimulating factor were pulsed with melanoma peptides and used to "prime" and/or "boost" CTL cultures in vitro. Our results suggest that antimelanoma CTLs may be reproducibly generated in short-term in vitro cultures in this manner using either a subset of the defined synthetic peptides (MART-1/Melan-A27-35, MART-1/Melan-A32-40, gp100(280-288), tyrosinase368-376, and MAGE-3(271-279)) or unfractionated peptides (containing both idiotypic and shared melanoma epitopes) derived from freshly isolated autologous melanoma lesions. These in vitro data support the use of autologous DCs prepulsed with such peptides as an appropriate antigen adjuvant delivery system in melanoma peptide-based vaccines.
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PMID:Autologous human dendriphages pulsed with synthetic or natural tumor peptides elicit tumor-specific CTLs in vitro. 955 67

Previously, we showed that expression of B7-1 in CMT93 murine colorectal tumour cells inhibited their growth in immunocompetent animals. However, this did not result in any significant increase in systemic protective immunity, relative to that elicited by the parental tumour. To potentiate the effects of B7-1 on systemic immunity. Interleukin-12 (IL-12) or granulocyte-macrophage colony-stimulating factor (GM-CSF) was co-expressed with this molecule. These combinations of immunostimulatory molecules were effective in eliciting systemic immunity. We also show that expression of B7-2 led to a local antitumour response as well as significantly raised systemic immunity. In another tumour model. K1735 minutes melanoma, which is moderately immunogenic, tumours secreting GM-CSF alone were as effective as the parental tumours in generating protective immunity. Previously, we described the deleterious effect of B7-1 expression on protective immunity. Co-expression of GM-CSF did not counteract this consequence of B7-1 expression. Expression of IL-12 was extremely effective in causing rejection of inoculated tumour cells, but evoked only minimal protective systemic immunity. These results suggest that combing costimulatory molecules and cytokines may be a useful therapeutic approach in some, but not all, tumours.
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PMID:Tumour cell expression of B7 costimulatory molecules and interleukin-12 or granulocyte-macrophage colony-stimulating factor induces a local antitumour response and may generate systemic protective immunity. 957 42

Clinical observations in the interleukin (IL) 2-based immunotherapies suggest that T cells play a central role in the rejection of melanoma. Using cDNA expression cloning, we have isolated genes encoding melanoma antigens recognized by tumor-infiltrating T lymphocytes. These antigens are categorized as (a) melanocyte-specific melanosomal proteins (MART-1/melan A, gp100, tyrosinase, TRP-1, and TRP-2), (b) tumor-specific mutated proteins (beta-catenin), and (c) others (p15). A variety of mechanisms has been identified for the generation of T cell epitopes on tumor cells. Some of the HLA-A2 binding epitopes from the melanosomal antigens appear to be subdominant self-determinants with relatively low major histocompatibility complex binding affinity. The effectiveness of adoptive transfer into patients of cytotoxic T lymphocytes recognizing the melanosomal antigens, the significant correlation between vitiligo development and clinical response in patients receiving IL-2-based immunotherapies, and the sporadic tumor regressions observed in some patients following immunization with the MART-1 or gp100 peptides in incomplete Freund's adjuvant or recombinant viruses expressing the MART-1 antigen suggest that these epitopes may represent tumor rejection antigens. Phase I immunization trials using peptides or recombinant viruses containing genes encoding the melanosomal antigens MART-1 or gp100, with or without co-administration of cytokines such as IL-2, IL-12, or granulocyte-macrophage colony-stimulating factor, are being conducted in the Surgery Branch of the National Cancer Institute. These studies may demonstrate the feasibility of using melanosomal proteins for the immunotherapy of patients with melanoma.
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PMID:The use of melanosomal proteins in the immunotherapy of melanoma. 967 45

Serum tumor markers may be helpful in early diagnosis of cancer, in the initial assessment of the extent of the disease, and in monitoring the tumor growth or tumor volume reduction once cancer has been diagnosed and treatment started. Recent studies have focused on a new family of markers -hematopoietic growth factors, especially on granulocyte-macrophage colony-stimulating factor (GM-CSF). A number of investigations have shown autologous production of GM-CSF in various human cell lines derived from melanoma, gastric or ovarian cancer, and in certain tumors of nonhematopoietic origin. In this study serum level of GM-CSF was measured using a sensitive sandwich ELISA system in 34 patients with non-small cell lung cancer (NSCLC) before and 10, 30, 90, 180 and 270 days after surgical operation. Additionally common accepted tumor markers such as CEA and CYFRA 21.1 were also assayed. Preoperative level of GM-CSF was significantly increased in cancer patients relative to the normal sera (p < 0.02). Concentration of GM-CSF and CYFRA 21.1 were decreased on 10th day, but CEA on 30th day after surgical treatment, although upon comparison of pre- and postoperative tumor markers serum levels significant difference was observed for CYFRA 21.1 (p < 0.05). Levels of GM-CSF were increased in 85%, CEA in 62% and CYFRA 21.1 in 51%. The diagnostic sensitivity and serum levels of GM-CSF were related to the stage of the disease and the combined use of two markers increased the sensitivity compared with the use of only one. These results suggest that GM-CSF, especially in the combination with CYFRA 21.1., may be useful in the diagnostic and monitoring of patients with NSCLC.
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PMID:[Granulocyte macrophage-colony stimulating factor (GM-CSF) in diagnosis and monitoring of non-small cell lung cancer]. 976 Aug 5

We conducted a Phase I clinical trial investigating the biologic activity of vaccination with irradiated autologous melanoma cells engineered to secrete human granulocyte-macrophage colony-stimulating factor in patients with metastatic melanoma. Immunization sites were intensely infiltrated with T lymphocytes, dendritic cells, macrophages, and eosinophils in all 21 evaluable patients. Although metastatic lesions resected before vaccination were minimally infiltrated with cells of the immune system in all patients, metastatic lesions resected after vaccination were densely infiltrated with T lymphocytes and plasma cells and showed extensive tumor destruction (at least 80%), fibrosis, and edema in 11 of 16 patients examined. Antimelanoma cytotoxic T cell and antibody responses were associated with tumor destruction. These results demonstrate that vaccination with irradiated autologous melanoma cells engineered to secrete granulocyte-macrophage colony-stimulating factor stimulates potent antitumor immunity in humans with metastatic melanoma.
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PMID:Vaccination with irradiated autologous melanoma cells engineered to secrete human granulocyte-macrophage colony-stimulating factor generates potent antitumor immunity in patients with metastatic melanoma. 978 55

Several antigens, including the products encoded by the genes MAGE-1 and MAGE-3, are recognized on human melanoma cells by HLA-A1, HLA-A2, or HLA-Cw*1601*-restricted T cells on autologous or HLA-matched melanoma cell lines. T-cell recognition of naturally processed MHC class I-presented peptides, or alternatively synthetic peptides derived from MAGE-1 or MAGE-3, leads to cytokine release as well as to a cytotoxic T-cell response in these antimelanoma-directed polyclonal or clonal effector T-cell populations. Recent reports suggest that the activity of T lymphocytes infiltrating melanoma in vivo appears to be impaired. We report here the characterization of the in vitro (in the presence of 6000 IU interleukin 2) expanded tumor-infiltrating lymphocyte (TIL) T-cell line PM2-B2 derived from a patient with rapidly progressing and therapy-resistant head and neck melanoma. The TIL cell line PM2-B2 did not lyse, but instead released granulocyte-macrophage colony-stimulating factor in response to the autologous tumor or HLA-A1-matched allogeneic tumor cell lines. The TIL line PM2-B2 did not kill the MHC class I natural killer/lymphokine-activated killer target cell lines Daudi or K562. The fine specificity of the TIL line PM2-B2 restricted by HLA-A1 was further characterized by evaluating specific granulocyte-macrophage colony-stimulating factor release in response to MHC class I-eluted peptides derived from HLA-A1(+) melanoma cell lines. TIL PM2-B2 failed to recognize the recently described HLA-A1-presented peptides derived from the gene products encoded by MAGE-1 or MAGE-3. PCR-based analysis of the freshly harvested tumor from patient PM2-B2 revealed the presence of message for the melanoma-associated gene products MAGE-1 and MAGE-3, but not for tyrosinase or MART-1/MELAN-A. Acid elution and high performance liquid chromatography fractionation of MHC class I-presented peptides from HLA-A1-matched melanoma cell lines 397 or 888 revealed that TIL PM2-B2 recognized at least three distinct peptide epitopes eluting in high performance liquid chromatographic bioactive fractions 5/6, 36, and 51/52. These bioactive peaks appeared to be shared among HLA-A1(+) melanoma cell lines. We suggest, based on this report, that HLA-A1-presented melanoma-derived peptides (other than those previously reported peptides derived from MAGE-1 or MAGE-3) may represent targets for TIL recognition as defined by cytokine release, but not cytotoxicity. Such an immune response differentially defined by cytokine release, but absent cytotoxic functions, may either reflect the impaired cytolytic function of the TIL population or reflect the inherent nature of HLA-A1-presented melanoma T-cell epitopes leading to cytokine release, but not to a cytotoxic T-cell response. Additionally, this report suggests that the individual T-cell immune response to melanoma may be rather complex, involving diverse T-cell effector functions (e.g., cytotoxicity or cytokine release), each of which should be evaluated in studies of antitumor-specific T-cell reactivity.
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PMID:Detection of naturally processed and HLA-A1-presented melanoma T-cell epitopes defined by CD8(+) T-cells' release of granulocyte-macrophage colony-stimulating factor but not by cytolysis. 981 95

Granulocyte-macrophage colony-stimulating factor (GM-CSF)-transduced B16-F10 murine melanoma cells had lower tumorigenicity in both syngeneic and nude mice than parental or LacZ-transduced (control) cells. The subcutaneous (s.c.) tumors producing GM-CSF were densely infiltrated with macrophages, whereas the control tumors were not. In vitro studies showed that GM-CSF-transduced B16 cells were susceptible to lysis mediated by nonactivated murine macrophages, whereas control B16 cells were not. Macrophage-mediated cytotoxicity against GM-CSF-transduced B16 cells was independent of the presence of NO, H2O2, O2-, tumor necrosis factor alpha, and matrix metalloproteinase. Coculture experiments using GM-CSF-producing and -nonproducing B16 cells demonstrated that GM-CSF produced by the transduced B16 cells activated macrophages to kill the bystander non-GM-CSF-producing tumor cells. The results suggest that GM-CSF released by tumor cells can induce macrophage-mediated cytotoxicity, which in turn can inhibit the in vivo growth of GM-CSF-transduced tumor cells.
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PMID:GM-CSF-transduced B16 melanoma cells are highly susceptible to lysis by normal murine macrophages and poorly tumorigenic in immune-compromised mice. 988 52

Intramuscular injection of plasmid DNA encoding both subunits of the cytokine interleukin 12 (IL-12) exhibits strong antimetastatic activity against lung metastases induced by the malignant melanoma cell line B16-F10. The protective effect of IL-12 DNA is long-lasting, since administration of tumor cells 9 days after IL-12 DNA treatment prevented metastasis formation. No effects were observed with empty plasmid controls, DNA encoding the melanoma-associated antigen pmel17/gp100, the granulocyte-macrophage colony-stimulating factor GM-CSF, B7.1, or CpG-containing oligodeoxynucleotides. IL-12 DNA is required during early phases of metastasis formation and is ineffective when administered later. Its efficiency is dose dependent. The cytotoxic T cell response contributes to the antimetastatic effect as evidenced by genetically modified CD8- or perforin knockout mice. Depletion of natural killer (NK) cells by antibodies completely abrogated the effect. In contrast, the IL-12-induced antimetastatic effect was not mediated by interferon gamma (IFN-gamma) or tumor necrosis factor alpha (TNF-alpha) as shown with IFN-gamma receptor and TNF-alpha knockout mice, respectively. Toxic side effects by IL-12 were low. Our results suggest that plasmid DNA encoding IL-12 might have potential value as gene medicine against the initiation of metastasis formation.
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PMID:Long-lasting anti-metastatic efficiency of interleukin 12-encoding plasmid DNA. 1004 93

Tumor vaccines and gene therapy have received significant attention as means of increasing cellular and humoral immune responses to cancer. We conducted a pilot study of seven research dogs to determine whether intradermal injection of canine tumor cells transfected via the Accell particle-mediated gene transfer device with the cDNA for human granulocyte-macrophage colony-stimulating factor (hGM-CSF) would generate biologically relevant levels of protein and result in demonstrable histological changes at sites of vaccination. Tumor cell vaccines of 10(7) irradiated canine melanoma cells were nontoxic, safe, and well tolerated. No significant alterations in blood chemistry values or hematological profiles were detected. A histological review of control vaccine sites revealed inflammatory responses predominated by eosinophils, whereas vaccine sites with hGM-CSF-transfected tumor cells had an influx of neutrophils and macrophages. Enzyme-linked immunosorbent assays of skin biopsies from vaccine sites had local hGM-CSF production (8.68-16.82 ng/site of injection) at 24 hours after injection and detectable levels (0.014-0.081 ng/site) for < or =2 weeks following vaccination. Flow cytometric analysis of hGM-CSF-transfected cells demonstrated < or =25% transfection efficiency, and hGM-CSF levels obtained during time-course assays demonstrated biologically relevant levels for both irradiated and nonirradiated samples. These data demonstrate the in vivo biological activity of irradiated hGM-CSF-transfected canine tumor cells and help provide evidence for a valid translational research model of spontaneous tumors.
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PMID:Preclinical development of human granulocyte-macrophage colony-stimulating factor-transfected melanoma cell vaccine using established canine cell lines and normal dogs. 1007 61

Using the poorly immunogenic D5 murine melanoma, we examined the adjuvant effect of granulocyte-macrophage colony-stimulating factor (GM-CSF) and interleukin-12 (IL-12) secretion by gene-modified tumor cells inoculated as a vaccine to prime tumor-draining lymph nodes (TDLNs). D5 transfectants that secreted IL-12 or GM-CSF alone were compared with a double transfectant that secreted equivalent amounts of both cytokines. TDLN cells harvested 9-10 days after subcutaneous tumor inoculation were cultured sequentially in anti-CD3 and IL-2 and assessed for antitumor reactivity against wild-type D5 tumor. The double transfectant-induced TDLN effector cells had greater cytotoxicity in a long-term assay than TDLN cells primed by single transfectants. In adoptive immunotherapy, the TDLN cells primed by the double transfectant were significantly better at mediating the regression of established tumors compared with the TDLN cells elicited by the single transfectants. Both IL-12 and GM-CSF had adjuvant effects in promoting tumor-reactive TDLN cells, but the combination was better than either alone. These observations suggest that the immunomodulation roles of IL-12 and GM-CSF are different and complementary.
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PMID:Enhanced adjuvant effect of granulocyte-macrophage colony-stimulating factor plus interleukin-12 compared with either alone in vaccine-induced tumor immunity. 1007 68

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