UMLS:C0017638 - FACTA Search

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Query: UMLS:C0017638 (glioma)
30,880 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Interleukin-1beta (IL-1beta) and interleukin-6 (IL-6) are proinflammatory cytokines that affect the secretion of several neuroendocrine hormones. In addition, glial cells synthesize and release IL-6, suggesting a paracrine role for this cytokine in the brain. We have examined the regulation of IL-6 release from glial cells by cytokines and catecholamines. Forty ng/ml IL-1beta induced a maximal 30-fold stimulation of IL-6 release (P < 0.01); higher and lower concentrations of IL-1beta were less effective. In the presence of (Bu)2cAMP, IL-1beta induced a strongly synergistic response with respect to IL-6 release; thus, the combination of these two agents resulted in a release of IL-6 that was much larger that the release attributed to either agent alone (i.e. 30-fold higher). Similarly, the combination of IL-1beta and the diterpene forskolin (but not the inactive analog 1,9-dideoxyforskolin) or cholera toxin also resulted in a synergistic stimulation of C6 glioma IL-6 release. Thus, increases in intracellular cAMP concentrations act in a synergistic fashion with the IL-1beta signaling pathway for IL-6 release. Because catecholamines increase intracellular cAMP levels, we investigated the effects of dopamine, epinephrine, and norepinephrine on IL-6 release. The combination of 1.0 to 100 microM of each catecholamine with IL-1beta resulted in the synergistic stimulation of IL-6 release. The coincubation of the beta-agonist isoproterenol and IL-1beta resulted in a striking 25-fold synergistic induction of IL-6 release. The synergistic increases in IL-6 release caused by IL-1beta and isoproterenol as well as IL-1beta and norepinephrine were blocked by the pretreatment of C6 cells with the beta-receptor antagonist propranolol. Because lysophosphatidylcholine (LPC) may function as a second messenger for IL-1beta, we also investigated the effects of LPC. Exogenous LPC (5 to 40 microM) stimulated IL-6 release from C6 glioma cells in a concentration-related manner (P < 0.01). The coincubation of LPC with norepinephrine provoked a synergistic release in IL-6 comparable with that obtained with IL-1beta and norepinephrine. Exposure of [3H]choline-labeled C6 cells to IL-1beta resulted in an increase in the [3H]LPC species as well as a decrease in [3H]phosphatidylcholine. Finally, while TNF alpha was less efficacious than IL-1beta for the stimulation of IL-6 release from C6 cells, the combination of IL-1beta and TNF alpha resulted in a significant synergistic induction of IL-6 release. We have demonstrated that IL-1beta stimulates IL-6 release from rat C6 glioma cells via a noncAMP-mediated mechanism that may involve LPC. The synergistic induction by cytokines and catecholamines of glial cell-derived IL-6 may subsequently affect inflammatory, neurodegenerative or neurotropic processes in the CNS.
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PMID:Interleukin-1beta and catecholamines synergistically stimulate interleukin-6 release from rat C6 glioma cells in vitro: a potential role for lysophosphatidylcholine. 992 20

Apoptosis is a physiological process wherein the cell initiates a sequence of events culminating in the fragmentation of its DNA, nuclear collapse, and finally disintegration of the cell into small, membrane-bound apoptotic bodies. Expression of Fas (APO-1, CD95) Receptor (FasR) and programmed or active cell (PCD) death was studied in childhood astrocytomas (ASTRs) with varying stages of malignancy, including pilocytic ASTR, low grade ASTR, anaplastic ASTR, and glioblastoma multiforme (GBM). The great majority of childhood glial tumors, particularly ASTRs express FasR whereas normal cells in the central nervous system (CNS) do not. FasR represents a transmembrane glycoprotein which belongs to the nerve growth factor/tumor necrosis factor (NGF/TNF) receptor superfamily. Apoptosis within ASTRs is triggered by the binding of FasR to its natural ligand (FasL) or by cross-linking with antibodies developed against FasR. Presence of FasL was also detected in childhood glial tumors. The expression of both FasR and FasL was also observed within the same ASTRs. Therefore, spontaneous, IP regulatory, intratumoral apoptotic cell death (autocrine suicide) is possible in childhood glial tumors. During a systematic, immunocytochemical screening of 42 childhood ASTRs tissues divided according to WHO classification: 6 WHO grade I or pilocytic ASTRs; 14 WHO grade II or low grade ASTRs; 16 WHO grade III or anaplastic ASTRs and 6 WHO grade IV or glioblastoma multiforme (GBM), we detected strong expression (intensity of staining: "A"--the highest possible; number of stained cells: +2 to +4, between 20% to 90%) of FasR, employing 4 microns thick, formalin fixed, paraffin-wax embedded tissue slides. FasR was present on 70% to 90% of tumor cells in pilocytic ASTRs, in 50% to 60% of the tumor cells in low grade ASTRs, in between 30% and 40% of the tumor cells in anaplastic ASTRs, and in between 20% to 35% of GBM cells. The panel of normal tissues employed as positive and negative tissue controls demonstrated presence of FasR in the prenatal thymus, mature tonsils and colonic epithelium. The use of a sensitive, indirect, six step immunoperoxidase or alkaline phosphatase conjugated streptavidin-biotin antigen detection technique provided excellent immunocytochemical results. A broad spectrum of neoplastic cells have been identified to express FasR: 1) carcinomas of epithelial origin, such as breast (ductal invasive, lobular invasive, mucinous), renal cell, gastric, colorectal, endometrial, prostate, pancreas, hepatocellular and large cell and squamous cell lung carcinomas: 2) non-epithelial neoplasms such as B cell mediastinal B cell and nodal non-Hodgkin's lymphomas large granular lymphocytic leukemia of T or NK cell origin malignant fibrous histiocytoma, malignant mesothelioma, leiomyosarcoma, epitheloid sarcoma and alveolar soft part sarcoma, as well as melanomas. Flow cytometry studies have also detected FasR expression on cells of adult T cell, and hairy cell leukemias, as well as in chronic B cell lymphocytic leukemia (BCLL). The coexpression of both FasR and FasL on several malignant cell types may represent an effective mechanism of tumor escape from the cellular immunological response of the host. It has been well established that brain tumors and melanomas produce their autocrine FasL, and even become capable of switching the signal transduction associated with FasL-FasR coupling from the PCD pathway to a tumor growth, proliferative pathway. It seems that the therapeutical use of FasR-FasL (main apoptotic pathway) may represent a new and exciting type of immunotherapy in the treatment of primary childhood glial tumors.
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PMID:Fas (Apo-1, CD95) receptor expression in childhood astrocytomas. Is it a marker of the major apoptotic pathway or a signaling receptor for immune escape of neoplastic cells? 1058 78

Central nervous system (CNS) tumors are the most common solid neoplasms in children. Medulloblastomas (MEDs) resemble embryonic neuroectodermal stem cells and their immature, uncommitted neuronal and glial progeny. Apoptosis is a basic physiological process wherein the cell initiates a sequence of events culminating in the fragmentation of its DNA, nuclear collapse, and finally, disintegration of the cell into small, membrane-bound apoptotic bodies. Expression of Fas (APO-1, CD95) receptor (FasR) and programmed or active cell death (PCD) was studied in childhood MEDs with varying stages of malignancy, and cell differentiation features. The majority of neoplastically transformed, neuroectodermal in origin cells, particularly in MEDs, express FasR, whereas normal cells in the CNS do not. FasR is a transmembrane glycoprotein, which belongs to the nerve growth factor/tumor necrosis factor (NGF/TNF) receptor superfamily. Apoptosis within childhood PNETs/MEDs is triggered by the binding of FasR to its natural ligand (FasL) or by cross-linking with anti-section i FasR antibodies. The resence of FasL has also been detected in childhood glial tumors. Therefore, a spontaneous, cellular immunophenotype (IP) regulatory, intratumoral apoptotic cell death (autocrine suicide) is possible in childhood brain tumors during neoplastic growth and progression. During our systematic immunocytochemical screening, we employed formalin fixed, paraffin-wax embedded tissue sections, as well as frozen sections of 34 primary human childhood PNETs/MEDs. The use of a sensitive, indirect, six step immunoperoxidase or alkaline phosphatase conjugated streptavidin-biotin antigen detection technique, modified by us, provided excellent immunocyto-chemical results. A systematic observation of the presence of apoptosis related markers (especially FasR) and cells in PCD was carried out. A strong expression (intensity of staining: "A"-the highest possible; number of stained neoplastic cells: +3 to +4, between 50% to 90%) of FasR, was detected employing 4 microns thick, formalin fixed, paraffin-wax embedded tissue slides. The panel of normal tissues employed as positive and negative tissue controls demonstrated presence of FasR in the prenatal thymus, mature tonsils and colon epithelium. Certainly, the coexpression of FasR, FasL, and other PCD-related proteins have also been reported in other human malignancies: breast cancer, colorectal carcinomas, large granular lymphocytic leukemia of T or NK cell origin, melanomas, lung, prostate, pancreas, and hepatocellular carcinomas. The coexpression of both FasR and FasL on several neoplastic cell types may represent an effective mechanism for tumor escape of the cellular immunological response of the host. It has been well established that brain tumors and melanomas produce their autocrine FasL, and even become capable of switching their signal transduction from the PCD pathway to a tumor growth, proliferative pathway. It seems that the therapeutical use of FasR-FasL (main apoptotic pathway) represents a new and exciting immunotherapeutical possibility in the treatment of primary childhood neuroectodermal tumors.
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PMID:Fas (APO-1, CD95) receptor expression and new options for immunotherapy in childhood medulloblastomas. 1065 26

Glioblastomas are particularly resistant to classical antitumor treatments. Retinoids, which proved effective in the treatment of promyelocytic leukemia, have been used for clinical assays on glioma tumors with only moderate effects; however in some cases they were active in combination with another therapy. These observations prompted us to analyse the efficacy of combining retinoic acid (RA) with a cytokine on a clonal human glioma cell line. On GL-15 cells, RA and tumor necrosis factor alpha (TNFalpha) both reduced the glial fibrillary acidic protein level and DNA synthesis and induced apoptotic pathways, but they were significantly more effective when used together. The up-regulation of the p55 TNF receptors observed during RA exposure might explain this cooperative effect.
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PMID:Effects of retinoic acid and tumor necrosis factor alpha on GL-15 glioblastoma cells. 1067 92

ICAM-1 is a cell surface adhesion glycoprotein playing an essential role in inflammatory responses. We have investigated the effects of the thyroid hormone T3 on the expression of the ICAM-1 gene in C6 glioma cells. In these cells, T3 stimulated the ICAM-1 protein expression significantly after 24 h of treatment. The induction of ICAM-1 by cytokines such as interleukin 1beta or tumour necrosis factor TNF as well as by lipopolysaccharide or T3 can be suppressed by the two anti-inflammatory compounds dexamethasone and parthenolide. The C6 glioma cell line could then be a useful model for studying the effect of T3 hormone on the expression of specific genes in glial cells, especially genes involved in lymphocyte-glial cell interactions.
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PMID:Expression of intercellular adhesion molecule-1 in C6 glioma cells is up-regulated by thyroid hormone. 1100 54

The breakthrough discovery of the anti-angiogenic effects of thalidomide gave impetus to a series of clinical trials in patients with solid tumors and hematologic malignancies. Thalidomide has been shown to block the activity of angiogenic substances like bFGF, VEGF and interleukin 6. This drug also down-regulates TNF alpha. Thalidomide has shown clinical antitumor activity in single-agent, phase II clinical trials in AIDS-related Kaposi sarcoma, glioma, multiple myeloma refractory to chemotherapy, and hormone-refractory prostate cancer. In contrast, thalidomide was inactive in breast, lung and kidney cancer. The dose-limiting toxicity of thalidomide is sedation. Other adverse effects include skin rash, constipation, dry mouth and liver function abnormalities, along with peripheral neuropathy and the drug's well-known teratogenic potential. The advantages of thalidomide include the convenience of the oral route of administration, the drug's toxicity profile--substantially milder than that of chemotherapy--and its low cost. The potential role of thalidomide in the treatment of human neoplasia will be confirmed by means of randomized clinical trials.
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PMID:[Thalidomide. Clinical trials in cancer]. 1118 34

During systematic cell-surface antigen expression profile analyses of 76 primary childhood brain tumors [34 medulloblastomas (MED)/primitive neuroectodermal tumors (PNETs) and 42 astrocytomas (ASTR)], a library of monoclonal antibodies (MoABs) directed against various leukocyte-associated, lymphocyte cell-line differentiation antigens in childhood brain tumors was utilized. The antigens were detected employing an indirect, biotin-streptavidin conjugated alkaline phosphatase (AP) immunocytochemical technique. Major histocompatibility complex (MHC) class I restricted, tumor-associated antigen (TAA) specific, CD8(+) cytotoxic T lymphocytes (CTL) were identified in 58/76 (76.32%) brain tumors, and usually represented 1-10% of all cells, but in some cases 30-44% of the cells were CD8(+). CD4(+), MHC class II restricted helper lymphocytes were present in 65/76 (85.53%) brain tumors, and accounted for 1-10% of the observed cells. Macrophages were present in 74/76 (97.37%) brain tumors, and their number also represented 1-10% of all observed cells in the brain tumor frozen sections. Leukocyte common antigen (LCA) expression was detected in all 76 (100%) brain tumors studied. MoAB UJ 308 detected the presence of premyelocytes and mature granulocytes in 60/76 (78.95%) brain tumors. Natural killer (NK) cells were not defined in the observed brain tumors. The great majority of childhood glial tumors, particularly ASTRs express Fas (APO-1/CD95) receptor whereas normal cells in the central nervous system (CNS) do not. FasR is a transmembrane glycoprotein which belongs to the nerve growth factor/tumor necrosis factor (NGF/TNF) receptor superfamily. As part of our screening, the 42 childhood ASTRs were also investigated for expression of CD95. We detected strong expression (strong intensity of staining, number of stained cells 50-100%) of FasR, employing formalin fixed, paraffin-wax embedded tissue slides. Brain tumors and melanomas have been shown to produce their autocrine FasL, and are even capable of switching CD95-related signal transduction from the PCD pathway to a proliferative pathway. In view of our results, we conclude that: (1) the tumor infiltrating leukocytes in MEDs/PNETs and ASTRs represent a very diverse population and are present in a great majority of the cases studied; (2) the strong expression of FasR in ASTRs provides a manner in which T lymphocytes may exert their anti-tumor effects, but may also represent yet another way that tumors may evade the immune response; and (3) further observations of the expression of various antigens involved in juxtacrine, in situ growth control are necessary for the refinement of cellular immunotherapeutical approaches in the treatment of human malignancies.
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PMID:Immunocytochemical detection of leukocyte-associated and apoptosis-related antigen expression in childhood brain tumors. 1141 97

FasL and TNF-related apoptosis-inducing ligand (TRAIL) belong to a subgroup of the TNF superfamily which induce apoptosis by binding to their death domain containing receptors. In the present study we have utilized a panel of seven cell lines derived from human malignant gliomas to characterize molecular pathways through which FasL and TRAIL induce apoptosis in sensitive glioma cells and the mechanisms of resistance in cell lines which survive the death stimuli. Our findings indicate that FADD and Caspase-8 are essential for FasL and TRAIL mediated apoptosis in glioma cells. One sensitive cell line (D270) can be protected from FasL and TRAIL induced death by anti-apoptotic Bcl-2 family members while another (D645) cannot, implying that these lines may represent glioma examples of type II and type I cells respectively. For the first time we demonstrate resistance to FasL but not to TRAIL within the one glioma cell line. Furthermore, we report distinct mechanisms of resistance within different glioma lines, including downregulation of Caspase-8 in U373MG. Cycloheximide sensitized four of the resistant cell lines suggesting the presence of labile inhibitors. None of the known apoptosis inhibitors examined accounted for the observed resistance, suggesting novel inhibitors may exist in glioma cells.
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PMID:Analysis of FasL and TRAIL induced apoptosis pathways in glioma cells. 1159 84

Among the death ligands of the tumor necrosis factor/nerve growth factor (TNF/NGF) superfamily, TNF-related apoptosis-inducing ligand (TRAIL) is considered to play a unique role due to its binding to both apoptosis-inducing and -blocking membranous receptors, apoptosis-independent effects and distinct species differences. Here, we demonstrate that human antigen-specific T helper cells upon activation are capable of directly lysing glioma cell lines via TRAIL receptor/TRAIL interactions. Out of 17 T cell lines, nine showed predominantly TRAIL-mediated killing of glioma cell lines compared to CD95 ligand- or TNF-induced cell death. The cytotoxic potential of the T cell lines was independent of T helper differentiation, antigen specificity and donor source. Thus, TRAIL-mediated signaling is involved in T cell cytotoxicity towards glioma cell lines, which might play an important role in tumor regression.
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PMID:Induction of TRAIL-mediated glioma cell death by human T cells. 1177 50

Temozolomide is an oral alkylating agent shown to have modest efficacy in the treatment of glioblastoma multiforme. Tumor necrosis factor alpha (TNF-alpha) is a polypeptide cytokine with synergistic antitumor activity in combination therapy with alkylating agents. We investigated the combined use of Ad.Egr-TNF, a replication-defective adenoviral vector encoding the cDNA for TNF-alpha under the control of chemo-inducible elements of the egr1 gene promoter, and intraperitoneal temozolomide in an intracranial human malignant glioma model. In hind limb U87MG xenografts, temozolomide produced a 6.4-fold greater induction of TNF-alpha after infection with Ad.Egr-TNF compared with Ad.Egr-TNF alone at 96 hours (P < 0.02). TNF-alpha and temozolomide combination leads to a synergistic decrease in U87 cell viability at 72 hours compared with either treatment alone (P < 0.001). Median survival for animals treated with Ad.Egr-TNF alone, temozolomide alone, and Ad.Egr-TNF/temozolomide was 21, 28, and 74 days, respectively (P < 0.001 by log-rank). Flow cytometric assessment of apoptosis revealed a synergistic increase in U87 cell apoptosis in vitro at 72 hours (P < 0.05), and terminal deoxynucleotidyl transferase-mediated dUTP-biotin nick end-labeling (TUNEL) evaluation of tumor sections revealed significantly increased TUNEL-positive cells after combination treatment compared with either treatment alone (P < 0.05). In conclusion, combination treatment with transcriptionally activated intratumoral TNF-alpha and systemic temozolomide significantly prolongs survival in an experimental glioblastoma multiforme model.
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PMID:Transcriptional targeting of adenovirally delivered tumor necrosis factor alpha by temozolomide in experimental glioblastoma. 1537 43

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