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)

Because Corynebacterium parvum has tumor-inhibitory properties and stimulates granulocyte-macrophage production, it may have clinical value in combination with chemotherapy. The leukopoietic effect of killed suspensions of C. parvum was studied in mice using the technique of in vitro clonal culture of hematopoietic cells. After C. parvum injection, there was a prompt, sustained elevation of serum colony-stimulating factor followed by an increase in granulocyte-macrophage precursor cells in the spleen and increases in blood mononuclear and granulocyte cells. Colony-stimulating factor production is suggested as a major mechanism of stimulation of granulocyte-macrophage proliferation by C. parvum. Since rapidly proliferating hematopoietic cells may have increased sensititity to cytotoxic agents, the details of hematopoietic stimulation by C. parvum may be critical in the sequential timing of combined C. parvum and chemotherapy treatment to obtain maximal tumor inhibition and minimal hematopoietic toxicity.
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PMID:Effect of Corynebacterium parvum on colony-stimulating factor and granulocyte-macrophage colony formation. 30 Jun 51

We previously reported that murine bone marrow cells activated by interleukin-3 (IL-3) or granulocyte-macrophage colony-stimulating factor (GM-CSF) had potent nonspecific natural suppressor (NS) cell activity. In the present study, we demonstrated that these activated NS cells released a soluble factor (or factors) capable of nonspecifically inhibiting T cell mitogenic responses. Consistent with the properties of transforming growth factor-beta (TGF-beta), treatment of the NS supernates with heat failed to denature the factor, and in fact significantly increased its suppressive activity. The NS suppressor factor strongly inhibited proliferation of the TGF-beta-sensitive tumor cell line, A549. Cytokine activation of suppressive activity correlated with the production of a 10- to 13-kDa protein, consistent with the size of TGF-beta and rIL-3 induced a sevenfold increase in TGF-beta transcription. Finally, neutralizing anti-TGF-beta antibody inhibited the suppressive activity of the supernates, indicating that TGF-beta was responsible for most, if not all, of the suppression expressed by these bone marrow NS cells.
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PMID:Transforming growth factor-beta is the major mediator of natural suppressor cells derived from normal bone marrow. 128 88

A series of monoclonal antibodies was produced by immunization of mice with cells of the human promonocytic cell line CM-S; one of these recognized a membrane antigen (MW 68,000) constitutively expressed by these cells. Antigen p68 was also found to be expressed on all granulocytic cells and most mononuclear leukocytes from normal human peripheral blood, but not on hemopoietic precursor cells from bone marrow. Various types of leukemic cells also expressed antigen p68 as did various transformed human cell lines whether derived from hemopoietic cells or from other tissues. Antigen p68 is involved in T-lymphocyte regulation. In fact, the antibody anti-p68 has a strong synergistic effect increasing the proliferative response of peripheral blood T-lymphocytes both in the mixed lymphocyte reaction and when the lymphocytes are stimulated by suboptimal doses of lectin (phytohemagglutinin), tumor promoter phorbol esters, or tetanus toxoid. The anti-p68 antibody synergizes with the active metabolite of vitamin D3, 1,25-dehydroxyvitamin D3, to induce monocyte to macrophage maturation and enhances the function of mature granulocytes stimulated with the granulocyte-macrophage colony-stimulating factor in vitro.
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PMID:Increased proliferation of activated T-lymphocytes in response to a monoclonal antibody (anti-p68). 130 87

We have previously shown that 3F8, a murine IgG3, monoclonal antibody (MoAb) specific for the ganglioside GD2, mediates tumor cell kill in vitro and in vivo. We now describe receptor requirements of polymorphonuclear leukocytes (PMN) in 3F8-mediated cytotoxicity (ADCC) of human GD2 (+) melanoma and neuroblastoma cell lines. PMN from a child with leukocyte adhesion deficiency (LAD) were devoid of CD11/CD18 adhesion molecules and mounted no detectable ADCC. MoAb to CD11b, CD11c, and CD18 each efficiently blocked ADCC by normal PMN. In contrast, a panel of different MoAbs to CD11a had no significant inhibitory effect on ADCC, a finding consistent with the low-to-absent expression of the CD11a ligand, intercellular adhesion molecule-1, on the target cells. Granulocyte-macrophage colony-stimulating factor (GM-CSF) significantly increased the expression of CD11b, CD11c, and CD18 on normal PMN, decreased the expression of Fc receptors (FcR), and enhanced ADCC by normal but not by LAD PMN. MoAbs to FcRII and FcRIII each efficiently blocked ADCC; anti-FcRI MoAb had no effect. Flow cytometry using anti-FcRII MoAb versus anti-FcRIII MoAb did not show cross competition, suggesting that inhibition of ADCC was not a steric effect resulting from FcRII proximity to FcRIII. PMN deficient in FcRIII (obtained from patients with paroxysmal nocturnal hemoglobinuria) and PMN depleted of FcRIII by treatment with elastase or phosphatidylinositol (PI)-specific phospholipase C produced low ADCC, supporting a role for the PI-liked FcRIII. Thus, optimal ADCC using human PMN, human solid tumor cells, and a clinically active MoAb (conditions that contrast with the heterologous antibodies and nonhuman or nonneoplastic targets used in most models of PMN ADCC) required CD11b, CD11c, FcRII, and the PI-linked FcRIII. Furthermore, in this clinically relevant system, GM-CSF enhancement of antitumor PMN ADCC correlated with increased expression of CD11/CD18 molecules.
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PMID:Absolute requirement of CD11/CD18 adhesion molecules, FcRII and the phosphatidylinositol-linked FcRIII for monoclonal antibody-mediated neutrophil antihuman tumor cytotoxicity. 134 7

We have examined the effect of the macrocyclic lactone protein kinase C (PK-C) activator bryostatin 1 on the in vitro radioprotective capacity of recombinant granulocyte-macrophage colony-stimulating factor (rGM-CSF) toward normal committed myeloid progenitor cells (day-14 granulocyte-macrophage colony-forming units [CFU-GM]). Preincubation of T-cell- and adherent cell-depleted bone marrow mononuclear cells with 12.5 nM bryostatin 1 and either 1.25 or 50 ng/ml rGM-CSF for 24 h resulted in an 18%-30% survival at 4-5 Gy, whereas cells exposed to rGM-CSF alone gave rise to no detectable colonies at radiation doses greater than 2.5 Gy. Coadministration of bryostatin 1 also led to a threefold increase in Do values for both rGM-CSF concentrations. A similar enhancement of radioprotective effects was observed with the tumor-promoting phorbol ester phorbol dibutyrate. Exposure of cells to both bryostatin 1 and rGM-CSF immediately following irradiation also resulted in enhanced progenitor cell survival when compared to rGM-CSF alone, but radioprotective effects were less than those observed when cells were preincubated with these factors. Cells preconditioned with bryostatin 1 and rGM-CSF prior to exposure to 2 or 4 Gy gave rise to significantly more colonies when radiation was administered as a 4-h divided dose, suggesting that bryostatin 1 may act by potentiating rGM-CSF-induced repair of sublethal radiation damage. Finally, pre-exposure of enriched progenitor cells (CD34+) to bryostatin 1 and rGM-CSF resulted in radioprotective effects that were less than those observed for partially purified populations with respect to the total population of surviving myeloid colonies. However, CD34+ cells preincubated with bryostatin 1 and rGM-CSF prior to irradiation exhibited a significant increase in both the percentage and absolute number of neutrophilic and macrophage colonies, and a reduction in eosinophilic colonies, compared to cells exposed to rGM-CSF alone. These studies suggest that bryostatin 1 (and possibly other PK-C activators) potentiates the in vitro radioprotective effects of rGM-CSF and may also regulate the lineage specificity of this response.
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PMID:Effect of bryostatin 1 on the in vitro radioprotective capacity of recombinant granulocyte-macrophage colony-stimulating factor (rGM-CSF) toward committed human myeloid progenitor cells (CFU-GM). 137 43

Human stem cell factor (SCF) acts in the presence of other growth factors to stimulate the growth of primitive hematopoietic progenitor cells. These effects are performed by activation of the SCF receptor, c-kit. Because of the potential use of SCF in patients undergoing chemotherapy and bone marrow transplantation, the effect of SCF on nonhematopoietic tumors requires investigation. To determine whether human tumor cell lines display c-kit receptors, we performed binding experiments with 125I-SCF on a breast carcinoma cell line (Du4475), a gastric carcinoma cell line (KATO III), a melanoma cell line (HTT144), as well as two small cell lung carcinoma cell lines (H69 and H128). The biologic effect of SCF on tumor cell lines was assessed by its ability to stimulate tritiated thymidine uptake and to enhance colony growth in methylcellulose. The breast carcinoma cell line, Du4475, as well as two small cell lung carcinoma cell lines, H69 and H128, exhibit high-affinity c-kit receptors with approximate binding affinities of 40, 100, and 90 pmol/L, respectively. The number of high-affinity receptors per cell ranged from 700 to 9,500. The gastric carcinoma cell line, as well as the melanoma cell line, showed trace binding of 125I-SCF. In the presence of SCF alone, or in combination with granulocyte-macrophage colony-stimulating factor or interleukin-3, there was less than a 17% increase in the colony growth of Du4475, H69, or H128 cell lines. Postulating that the lack of growth response could be secondary to endogenous SCF production by the tumor cell lines, we used an RNAse protection assay to determine whether the tumor cell lines contain SCF messenger RNA (mRNA). In addition, we tested tumor cell line supernatants for the presence of secreted SCF protein by enzyme immunoassay, and analyzed the tumor cell lines for membrane-bound SCF by indirect immunofluorescence. Our results show that the Du4475, H69, and H128 cell lines, as well as a melanoma cell line (HTT144), have multiple copies of SCF mRNA. Soluble SCF protein was detected in the cell supernatants in the Du4475 and H69 cell lines and SCF was found on the surface of all four cell lines. These data show that some human solid tumor cell lines display high-affinity c-kit receptors and produce SCF, which can be detected on the cell surface. These results suggest the possibility that autocrine production of SCF by c-kit receptor-bearing tumor cells may enhance cell growth in tumor cell lines.
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PMID:Nonhematopoietic tumor cell lines express stem cell factor and display c-kit receptors. 137 16

We investigated the ability of the TALL-103/2 and TALL-104 leukemic cell lines to produce lymphokines in response to activation signals, such as tumor cells and anti-CD3 (OKT3) or -CD2 (B67.1) monoclonal antibodies (mAb) or both. Both cell lines were found to produce high levels of interferon (IFN)-gamma, tumor necrosis factor (TNF)-alpha, and granulocyte-macrophage colony-stimulating factor (GM-CSF). The latter lymphokine is induced by lysable tumor cells and by immobilized OKT3 and B67.1 mAb only in the presence of interleukin (IL-2). IFN-gamma and TNF-alpha are induced upon CD3 but not CD2 stimulation, both in the presence and absence of IL-2. Interestingly, the B67.1 mAb amplifies the OKT3-induced responses by 2- to 10-fold, bringing the IFN-gamma and TNF-alpha levels of production up to 200 U/ml. Thus, simultaneous triggering of the CD2 and CD3 signaling pathways results in a very efficient lymphokine release. Of all the tumor cell lines tested as inducers, only K562 cells are able to stimulate the production of IFN-gamma and TNF-alpha in TALL-103/2 and TALL-104 cells, especially upon culture in IL-2. Lymphokine mRNA expression after stimulation with mAb or K562 cells peaks at 2 h in both cell lines. No messages are detectable in TALL-103/2 cells at 8 h, whereas in TALL-104 cells, IFN-gamma and GM-CSF transcripts are still present at 8 and 20 h, respectively. The inducible and highly regulatable expression of lymphokine release by these cell lines provides a unique model for studying mechanisms of lymphokine induction by different biological agents.
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PMID:Inducible expression of granulocyte-macrophage colony-stimulating factor, tumor necrosis factor-alpha, and interferon-gamma in two human cytotoxic leukemic T-cell lines. 142 68

Tumor-bearing host (TBH) macrophages (M phi) suppress T cell alloresponses, and this study suggests granulocyte-macrophage colony-stimulating factor (GM-CSF), a molecule associated with suppressive M phi activity during tumor growth, signals more immunosuppression. In the absence of M phi, GM-CSF increased T cell proliferation in response to alloantigen. However, TBH M phi-mediated suppression of allorecogntion was further induced by GM-CSF. Allogeneic mixed lymphocyte reaction (MLR) cultures, containing normal host (NH) M phi, were either unaffected or enhanced. Prostaglandin E2 (PGE2), a highly suppressive monokine that decreases alloreactivity, did not seem to be involved in the suppression caused by the TBH M phi/GM-CSF interaction. M phi-CSF (M-CSF) addition to cultures did not reverse the suppression caused by TBH M phi and GM-CSF, and inhibition of PGE2 synthesis did not change the response to M-CSF. TBH Ia- M phi, a suppressor population that predominates among splenic M phi during tumor growth, demonstrated significantly lower reactivity in the presence of GM-CSF. In contrast, alloresponses suppressed by NH Ia- M phi demonstrated higher reactivity in the presence of GM-CSF. The data collectively suggest that TBH M phi respond differently to GM-CSF, and that tumor-induced changes in GM-CSF responsiveness affect M phi accessory ability.
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PMID:Tumor growth changes the contribution of granulocyte-macrophage colony-stimulating factor during macrophage-mediated suppression of allorecognition. 145 14

Cytokines are known to play an important role in host defense by regulating the function, growth, and differentiation of the cells of the immune system. We hypothesize that, in the tumor microenvironment, tumor cells and resident tissue cells (e.g., fibroblasts) also produce cytokines that may regulate the local immune response to tumors. Initially, homogenates of eight head and neck squamous cell carcinomas (HNSCC) were assayed for the presence of interleukin-1 (IL-1), interleukin-4 (IL-4), interleukin-6 (IL-6), and granulocyte-macrophage colony-stimulating factor (GM-CSF) to establish the presence of these cytokines in the tumors in vivo. We detected IL-1 in all tumor homogenates and IL-4, IL-6, and GM-CSF in some homogenates. To assess the ability of HNSCC to produce these cytokines, supernatants of short-term primary cultures of HNSCC were assayed for the same cytokines. No IL-1 was detected, although baseline levels of IL-4, IL-6, and GM-CSF were present. However, the stimulation of primary tumor cultures with exogenous IL-1 induced or significantly enhanced production of IL-4 (p < 0.01), IL-6 (p < 0.001), and GM-CSF (p < 0.02). These results support our hypothesis that HNSCC secrete cytokines that may influence the response of local immune cells. Our data also suggest that IL-1 may have a central role in regulating the local immune response through the enhancement or induction of cytokine production by tumor and/or resident tissue cells.
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PMID:Cytokine expression by head and neck squamous cell carcinomas. 146 1

The variable clinical response seen with most cancer immunotherapy suggests that there is a large interindividual variation in immunologic response to tumors. One of the key functional parameters of an immune response is the local production of cytokines. As a method to survey the immune status of tumor-infiltrating cells, we have investigated the constitutive expression of cytokine mRNA in biopsies from epithelial ovarian carcinomas by using a PCR-assisted mRNA amplification assay. Using a set of cytokine-specific primers for 10 different cytokines, we have found selective expression of interleukin 10 (IL-10), granulocyte-macrophage colony-stimulating factor, and interferon gamma mRNA in ovarian tumor tissue as compared to normal ovaries and ovarian tumor cell lines. Such differences could not be explained by the extent of T-cell infiltration, since comparing samples with the same intensity of T-cell receptor (TCR) constant region alpha-chain product from the tumor and normal biopsies demonstrated different cytokine patterns. No IL-2 gene expression was detected in the tumor biopsies. IL-2 mRNA, however, became expressed after stimulation of the tumor-derived cells via the CD3 molecule but not after growth in recombinant IL-2 alone. Using the same methodology, we also analyzed the TCR variable region beta-chain gene repertoire. No restriction or biased expression of these genes was observed.
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PMID:Selective expression of interleukin 10, interferon gamma, and granulocyte-macrophage colony-stimulating factor in ovarian cancer biopsies. 150 88


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