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: UMLS:C0017636 (glioblastoma)
18,345 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

One of the morphologic hallmarks of human gliomas are inflammatory infiltrates with accumulation of macrophages in the tumor site. The signals leading to the macrophage response are only at the beginning of being understood. Novel chemotactic factors that have recently been characterized as secretory products of glioblastoma cells may attract mononuclear cells from the blood. Within the tumor tissue blood-derived monocytes and macrophages of the brain tissue, the microglial cells, may increase in cell numbers due to tumor-derived growth factors. Both astrocytoma cell lines and cultured astrocytes have been shown recently to produce granulocyte-macrophage (GM)-CSF. We show that in vitro not only astrocytoma but also glioblastoma cell lines secrete GM-CSF when stimulated with TNF-alpha or IL-1. However, there is no evidence for GM-CSF production by glioblastoma cells in vivo: fresh tumor samples lack the mRNA for GM-CSF and the protein is not detectable in the tumor cyst fluids or the cerebrospinal fluids of glioblastoma patients. This contrasts IL-1 and IL-6 that are detectable in the tumor cyst fluids and IL-6 also in the cerebrospinal fluids of the patients. Unlike GM-CSF, transforming growth factor-beta 2 mRNA is expressed in ex vivo tested glioblastoma tissues. Absence of GM-CSF in vivo may be explained by the presence of tumor-derived inhibitory factors, such as transforming growth factor-beta 2 and PGE which suppress GM-CSF production by glioblastoma cells in vitro. The accumulation of macrophages at the tumor site may be due to local elaboration of chemoattractants and/or not yet defined growth factors rather than due to GM-CSF production.
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PMID:Granulocyte-macrophage colony-stimulating factor (GM-CSF) production by glioblastoma cells. Despite the presence of inducing signals GM-CSF is not expressed in vivo. 131 29

The intrathecal immune response in neoplastic meningitis (NM) was studied by quantitation of immune parameters such as immunoglobulin G (IgG); IgM; interleukins (IL) 1, 2, 4, and 6; soluble IL-2 receptors (sIL-2R); interferon gamma (IFNy); tumor necrosis factor-alpha (TNF alpha); and three tumor markers, carcinoembryonic antigen (CEA), alpha-fetoprotein (AFP), and fibronectin (FN), in 47 paired cerebrospinal fluid (CSF) and serum samples from patients with NM from different carcinomas, malignant melanoma, and lymphoma. Elevated IgG and IgM indices, CSF oligoclonal Ig bands, and CSF IL-6 indicated an intrathecal immune activation in most patients with NM. Results for IL-1, IL-2, and IL-4 were always negative. sIL-2R and IFNy were detected occasionally but not associated with specific malignant neoplasms. CSF TNF alpha was detected only in NM from cases of malignant melanoma. None of the immune parameters proved useful for the differentiation of NM from autoimmune or inflammatory conditions. Immune parameters were not correlated with tumor markers CEA, AFP, or FN. Results for AFP were positive only in a case of glioblastoma. CEA was a useful and specific diagnostic parameter in carcinomatous NM. CSF FN levels frequently were elevated but are not specific for NM.
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PMID:Tumor cell dissemination triggers an intrathecal immune response in neoplastic meningitis. 137 13

The capacity of three different human glioblastoma cell lines to activate human T cells was analysed by measuring major histocompatibility complex (MHC) antigen expression, monokine secretion and lectin, mAb OKT3 and antigen-driven T cell proliferation. All glioblastoma cells tested were able to induce PHA and concanavalin A (ConA)-driven T cell proliferation in a dose-dependent fashion, while all failed to induce T cell activation with mAb OKT3. In addition, the glioblastoma cell line 86HG39 was able to induce tetanus toxoid and toxoplasma lysate antigen-specific T cell proliferation. The responding T cell lines originated from only one out of five different donors. This foreign antigen-specific T cell proliferation induced by 86HG39 cells could be inhibited with mAb L243 directed against HLA-DR molecules. The study of monokine secretion by 86HG39 cells showed a strong interleukin (IL)-6 secretion after lipopolysaccharide (LPS) treatment, whilst no IL-1 secretion was observed. Furthermore, only 86HG39 cells were positive for HLA-DR molecules, whereas interferon (IFN) gamma treatment of 87HG28 and 87HG31 cells was necessary for the induction of class II antigen expression. Thus, cell line 86HG39 shows many features of an antigen presenting cell and the interaction of these cells with MHC compatible human T cells might be a useful model to study cellular immune reactions within the central nervous system.
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PMID:Human glioblastoma cell line 86HG39 activates T cells in an antigen specific major histocompatibility complex class II-dependent manner. 146 90

In order to elucidate the role of inflammatory cytokines in the central nervous system (CNS), we examined whether IL and TNF-alpha induce cells in the CNS to produce two newly identified leucocyte chemo-attractants, IL-8 and monocyte chemotactic and activating factor (MCAF). Several human astrocytoma and glioblastoma cell lines expressed high levels of IL-8 and MCAF mRNA in vitro upon stimulation with IL-1 and TNF-alpha. In particular, an astrocytoma cell line U373MG subclone responded markedly to IL-1 with high expression levels of IL-8 and MCAF mRNA as well as IL-6 mRNA. Both IL-8 and MCAF mRNA expression depended on the dose of IL-1 and appeared as early as 30 min to 1 hr after IL-1 stimulation, confirming that these are early inducible genes. The production of IL-8 and MCAF in the U373MG cell culture supernatants was confirmed by a competitive radioimmunoassay (RIA) as well as chemotactic activities on human neutrophils and monocytes. IL-1-induced IL-8 and MCAF mRNA expression appeared to occur at least at the transcriptional level as revealed by a nuclear run-off assay. Moreover, IL-1 treatment increased the half-life of IL-8 and MCAF mRNA markedly, suggesting that increased mRNA stability was also responsible for the enhanced gene transcription. These data suggest that IL-1 and TNF-alpha induce astrocytes to produce IL-8 and MCAF transcriptionally and post-transcriptionally, both of which may be responsible for leucocytosis seen in inflammation of the CNS.
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PMID:IL-1 and TNF-alpha induction of IL-8 and monocyte chemotactic and activating factor (MCAF) mRNA expression in a human astrocytoma cell line. 193 74

The therapeutic potential of interleukin 1 (IL-1) in the treatment of malignant glioma was investigated. The direct effect of recombinant human IL-1 beta (rHuIL-1 beta) on cultured U-373 MG glioma cell was evaluated in vitro by BrdU uptake assay, and these effects were compared with those of human interferon beta (HuIFN-beta). Though a growth inhibition and an increase of the percentage of process bearing cells were observed with rHuIL-1 beta at a concentration of 100 ng/ml, these in vitro effects of rHuIL-1 beta were less than those of HuIFN-beta at the same concentrations. Prevention of and enhanced recovery from myelosuppression caused by ACNU by rHuIL-1 beta were evaluated in BALB/c mice. Intravenous injection of ACNU at a dose of 60 mg/kg caused marked decreases in the number of leukocytes, neutrophils, reticulocytes and thrombocytes after seven days. Pretreatment with 1 microgram/mouse of rHuIL-1 beta as a single i.p. injection had a significant preventive effect on these myelosuppression including thrombocytopenia. Enhanced recovery by rHuIL-1 beta administrated seven days after injection of ACNU was also observed. Experimental combination immunochemotherapy with ACNU and rHuIL-1 beta was performed in nude mice inoculated with human glioblastoma subcutaneously. More than 60 mg/kg of ACNU given intraperitoneally inhibited the growth of human glioblastoma in nude mice, but had no effect on survival time of nude mice. The antitumor effect of ACNU was significantly augmented by coadministration of 1 microgram/mouse rHuIL-1 beta. The elongation of the survival time of the tumor bearing nude mice was also observed in combined use of ACNU with rHuIL-1 beta. These results suggest that the combined use of IL-1 with chemotherapeutic agents seems to be desirable for clinical application in the treatment of patient with malignant gliomas from the viewpoints of the direct anti-tumor effect, the enhancement of the host immunity, and the prevention of myelosuppression caused by those agents.
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PMID:[Application of interleukin 1 in the treatment of malignant gliomas with special reference to the experimental combination therapy with ACNU]. 235 Jan 91

B cell stimulatory factor 2 receptors (BSF-2-R) were studied using radioiodinated recombinant BSF-2 with a specific activity of 6.16 X 10(13) cpm/g. Kinetic studies showed that binding of 125I-BSF-2 to CESS cells reached maximum level within 150 min at 0 degrees C. There was a single class of receptors with high affinity (Kd 3.4 X 10(-10) M) on CESS, and the number of receptors was 2,700 per cell. Binding of 125I-BSF-2 to CESS was competitively inhibited by unlabeled BSF-2 but not by IL-1, IL-2, IFN-beta, IFN-gamma, and G-CSF, indicating the presence of the receptors specific for BSF-2. EBV-transformed B lymphoblastoid cell lines (CESS, SKW6-CL4, LCL13, and LCL14) expressed BSF-2-R, whereas Burkitt's lines did not. EBV or EBNA2 did not induce the expression of the receptors on Burkitt's cells. The plasma cell lines (ARH-77 and U266) expressed BSF-2-R, fitting the function of BSF-2 as plasma cell growth factor. Several other cell lines, the histiocytic line U937, the promyelocytic line HL60, the astrocytoma line U373 and the glioblastoma line SK-MG-4, in which BSF-2 was inducible with IL-1 or TPA, displayed BSF-2-R with Kd in the range of 1.3-6.4 X 10(-10) M, suggesting the autocrine mechanism in BSF-2 function. The four T cell lines (CEM, HSB, Jurkat, and OM 1) did not express a detectable number of receptors, but normal resting T cells expressed 100-1,000 receptors per cell. BSF-2-R were not present on normal resting B cells but expressed on activated B cells with a Kd of 3.6-5.0 X 10(-10) M, fitting the function of BSF-2, which acts on B cells at the final maturation stage to induce immunoglobulin production.
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PMID:Receptors for B cell stimulatory factor 2. Quantitation, specificity, distribution, and regulation of their expression. 282 Nov 54

Interleukin 1 is a monokine produced by macrophage and has an ability to activate thymocytes. In addition to the immunological regulatory effect, interleukin 1 has attracted a great deal of investigators as a new peptide hormone that was secreted by many cells and has a various physiological activities. In central nervous systems, interleukin 1 promotes the glial cells proliferations on the injured brain and the fetal brain. The cell sources of interleukin 1 in central nervous systems are considered to the microglial cells. On gliomas, Lachmann and Dinarello reported growth promoting effect of IL-1 on U-373 MG human glioblastoma cell. The authors investigated the roles and effects of IL-1 on the growth of gliomas using recombinant human IL-1 beta and anti-HuIL-1 beta monoclonal antibody. On Immunohistochemistry, paraffin sections of 10 cases of gliomas were stained with immunoperoxidase method using anti-human IL-1 beta and anti-GFAP mouse monoclonal antibody. All astrocytomas examined and 2 of 4 glioblastomas were stained by anti-IL-1 beta. The origin of IL-1 that was stained by immunoperoxidase staining is unknown. The authors think it that IL-1 existed in glioma cells were secreted by microglial cells or that the glioma cells themselves secreted IL-1. In either case, IL-1 must be related to the growth of glioma in situ. On immunocytochemistry, U-373 MG human glioblastoma cells purchased from ATCC were incubated on cover-slip with 0 and 10 U/ml of rHuIL-1 beta for 3 or 7 days. The cells were stained with immunoperoxidase method using anti-GFAP monoclonal antibody.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Interleukin 1 and gliomas: immunohistochemical and immunocytochemical examinations]. 284 Jan 6

Ornithine decarboxylase (ODC) is a rate-limiting enzyme in polyamine synthesis, and polyamines are required for cell growth. As an approach to clarifying the mechanism of action IL-1, the effects of IL-1 on ODC activity were examined in various cell lines whose proliferation was either suppressed or enhanced by IL-1. The proliferation of all cell types used in these experiments was markedly suppressed by a specific ODC inhibitor, alpha-difluoromethyl ornithine (DFMO), substantiating the crucial role of ODC activity for cell proliferation. ODC activity also was considerably suppressed by IL-1 in those cells on which IL-1 exerts an antiproliferative effect, such as a human melanoma cell line (A375) and malignant human mammary cell lines (MCF-7 and T-47D). On the other hand, ODC activity was stimulated in cells that are stimulated to proliferate in response to IL-1, such as a mouse helper T cell line (D10.G4.1), a NK cell-like cell line (YT), and a human glioblastoma cell line (U373 MG). The effect of IL-1 on ODC activity preceded and directly correlated in a dose-dependent manner with its effect on DNA synthesis. Furthermore, putrescine, a product of the ODC reaction and a precursor of polyamines, was able to overcome most, but not all, the antiproliferative action of IL-1 in A375 melanoma cells, which were the most sensitive to suppression by IL-1. However, putrescine did not reverse the cytostatic effect of IL-1 on MCF-7 and T-47D cell lines. In contrast, putrescine, like IL-1, exhibited some co-mitogenic activity on D10.G4.1 cells. Because the biological activities of TNF and IL-1 show considerable overlap, the effect of TNF on ODC activity also was examined. TNF had an antiproliferative effect on A375 cells and stimulated the proliferation of U373 MG cells. The ODC activity in A375 cells was suppressed by TNF, and the ODC activity in U373 MG cells was stimulated by TNF. Putrescine also partially overcame the inhibitory effect of TNF. These results suggest that the regulation of ODC activity may be a key component in the antiproliferative and proliferative action of IL-1 and TNF in some tumor cell types.
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PMID:Role of ornithine decarboxylase in the regulation of cell growth by IL-1 and tumor necrosis factor. 297 24

The human glioblastoma cell line 308 constitutively secretes a soluble factor with biologic and biochemical characteristics of human monocyte-derived interleukin 1 (IL 1). The 308 cells also produce a 97,000 m.w. factor that inhibits the effects of IL 1 and interleukin 2 (IL 2) on T lymphocytes. By using sequential chromatography on Blue Affigel, hydroxyapatite, and Ultrogel AcA54, the inhibitory factor, termed glioblastoma-derived T cell suppressor factor (G-TsF), was separated from IL 1 and purified 2000-fold with respect to the protein present in the crude 308 cell supernatant. This G-TsF preparation was sensitive to tryptic proteolysis, showed a peak of pI 4.6 on isoelectric focusing, and when labeled with 125I, revealed six protein bands in the range of 30 to 100 kdaltons on SDS gel.
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PMID:Partial purification and biochemical characterization of a T cell suppressor factor produced by human glioblastoma cells. 387 Dec 5

Studies were designed to investigate whether the cellular immunodeficiency state observed in human glioblastoma patients could be due to inhibitory factors released by the tumor cells. Cultured human glioblastoma cells were found to secrete an interleukin 1-like factor (m.w. 22,000) and a factor (m.w. 97,000) that inhibits interleukin 2 (IL 2)-dependent T cell mechanisms. This is demonstrated by its inhibitory effect on the IL 2-induced proliferation of T cell clones and on the induction of alloreactive cytotoxic T cells in mixed lymphocyte cultures. Additionally the glioblastoma cell-derived 97,000-m.w. factor inhibited growth of neuroblasts but not of fibroblasts and thus shares the characteristics of the neuroblast growth inhibition factor (NGIF) previously detected in the supernatant of fetal rat glia cell cultures. If released by glioblastoma cells in vivo, the factor may contribute to impaired immunosurveillance and to the cellular immunodeficiency state detected in the patients.
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PMID:Glioblastoma cells release interleukin 1 and factors inhibiting interleukin 2-mediated effects. 660 49


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