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)

A new approach to the treatment of malignant glioma is cytokine gene therapy to produce growth inhibitors in cells. Previously, we showed that human glioma cells selectively transfected with the gene of interferon (IFN)-beta and/or IFN-gamma by our novel liposomes tagged with monoclonal antibody against a glioma-associated antigen achieved a remarkable growth inhibition effect. In the present experiment, we demonstrated the effectiveness of gene therapy against glioma cells using liposomes bearing a plasmid containing the gene for tumor necrosis factor (TNF)-alpha. We also found that the effect of endogenous TNF-alpha was enhanced by treatment of IFN-gamma prior to the transfection with the TNF-alpha gene.
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PMID:Growth inhibition of glioma cells by liposome-mediated cell transfection with tumor necrosis factor-alpha gene--its enhancement by prior gamma-interferon treatment. 128 76

Incubation of the human glioma cell line HS 683 in the presence of IFN-gamma or retinoic acid strongly stimulates the cell-surface expression of the intercellular adhesion molecule ICAM-1. We have investigated the role of the cAMP-mediated signal transduction pathway in this process and report that pharmacological agents which increased the intracellular levels of cAMP exhibited a biphasic action on ICAM-1 expression in human glioma cell line HS 683. Treatment for 1 hr with 25 microM forskolin or 1 mM isobutylmethylxanthine, or for 12 hr with 100 ng/ml pertussis toxin or 50 micrograms/ml cholera toxin transiently stimulated ICAM-1 expression with a maximal level of expression 8 hr post treatment, after which time ICAM-1 expression returned to the basal level. On the other hand, such pretreatments inhibited the inducing effects of either retinoic acid or IFN-gamma. Indeed, 24 hr after treatment with cAMP-elevating agents, both the retinoic-acid- and the IFN-gamma-induced ICAM-1 expression were inhibited by 60 to 80%, with a maximal 90 to 100% inhibition 72 hr post treatment. This inhibition of the cell-surface expression of ICAM-1 was confirmed at the mRNA level. The intracytoplasmic levels of cAMP were also quantified following treatments with forskolin, retinoic acid or IFN-gamma. In response to forskolin, cAMP levels increased 30-fold within 5 min, whereas a 10-fold increase occurred 60 min following treatment with 10 microM retinoic acid. Interferon gamma, in contrast, did not induce cAMP accumulation. These results were also correlated with an in vitro activation of adenylyl cyclase activity by retinoic acid and inhibition of this activity by IFN-gamma, in a dose-dependent and a GTP-dependent manner. Our results suggest that the suppression of IFN-gamma-induced ICAM-1 expression, obtained upon pre-treatment with cAMP-elevating agents, is due to direct antagonism with IFN-gamma action on adenylyl cyclase. However, the inhibition of retinoic-acid-induced ICAM-1 expression cannot be explained by the same mechanisms. The timing of adenylyl cyclase stimulation and cAMP accumulation, as well as the levels of cAMP accumulation, are probably involved in this inhibition. Our results also emphasize the fact that the induction of ICAM-1 expression is a multi-step process implicating different transductional signals among which cAMP might be involved as a second messenger.
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PMID:Biphasic effect of cAMP-elevating agents on ICAM-1 expression stimulated by retinoic acid and interferon gamma. 137 Apr 36

Glioma cell lines express proteins of the complement alternative pathway, namely C3, factor B, factor H, and factor I. Secretion of these proteins was shown by a sensitive and specific ELISA. C3 and factor H were rapidly secreted by glioma cell line CB193 and reached a concentration of 140 ng/ml/10(6) cells after 72 h of culture. Factor B and factor I were secreted at a lower rate and reached concentrations of 25 and 15 ng/ml/10(6) cells, respectively. Western blot and immunoprecipitation experiments showed that secreted proteins were identical to the corresponding plasma proteins. For factor H, besides the well known 150-kDa species, an additional polypeptide of 45 kDa with factor H immunoreactivity was observed. This species corresponded to the N-terminal truncated form found in plasma. In preliminary experiments, we observed control of these syntheses by cytokines. IL-1 beta significantly increased C3 secretion, with no effect on factor H. Secretion of factor H was enhanced by IFN-gamma. These results show that a glioma cell line could be a useful tool to study complement biosynthesis by glial cells in humans.
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PMID:Expression of complement components of the alternative pathway by glioma cell lines. 138 64

Expression of the Cytokine genes in human astroglial cell lineage was studied. Primers for 5 different human cytokine, TNF-alpha, -beta, IFN-gamma, G-CSF and GM-CSF, were used to analyze messenger RNA transcripts in 5 cultured human astrocytoma, one neuroblastoma cell lines and fresh brain specimens by polymerase chain reaction (PCR). Three out of 5 unstimulated astrocytomas, U138, U251, U373 MG and IMR32 neuroblastoma cells expressed TNF-alpha genes. After stimulation with IL-1 beta (1000 U/ml) all these cell lines expressed TNF-alpha genes. TNF-beta genes could not be detected in these cell lines even in the presence of any cytokine stimuli. We were able to detect expression of IFN-gamma genes within 2 astrocytoma cell lines (U87MG and A172), which interestingly did not show TNF-alpha activity. Constitutive expression of mRNA transcripts of GM -CSF could be detected in all astrocytoma and two out of 5 unstimulated astrocytomas, U87MG and U138MG, expressed G-CSF genes. After stimulation with IL-1 beta, all cell lines expressed G-CSF. In addition, we also examined gene expression of these cytokines within 4 human malignant astrocytoma specimens, 2 peritumoral brain and 2 autopsied normal brains. The results show that tumor and surrounding lesions express TNF-alpha (4 of 6), TNF-beta (1/6), IFN-gamma (4/6), G-CSF (3/6) and GM-CSF (5/6) but not normal brains. One tumor specimen also expresses TNF-beta as well as TNF-alpha genes (case 2). From these results, it is suspected that astroglial cell-derived cytokines may participate in local immune reactions accompanying glioma in the brain.
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PMID:[Expression of cytokine genes within astrocytoma cell lines and brain specimens]. 179 21

Antineoplastic effects of interferons (IFNs) on brain tumors have often been reported in the literature, however, so far as we know, there are no reports of the study on the antineoplastic effect of IFNs (alpha, beta, and gamma) labelled with fluorescein isothiocyanate (FITC) using flow cytometry (FCM). Three established glioma cell lines and 11 cultured cells of brain tumor from surgical specimens were exposed to IFN-alpha, beta, and gamma at the concentrations of 10(2)-10(5) IU/ml for 24 h, respectively. Using FCM, the viability of the cells was evaluated with fluorescein diacetate stain and the cell cycle was analyzed from the DNA-histogram with propidium iodide stain. Furthermore, FITC-labelled IFN-alpha, beta and gamma were also contacted with each cell to calculate respective positive cells. The viability decreased about 60% on day 1 and day 3, indicating the effect of IFN-alpha and beta on U373MG cells and on some cultured glioma cells from surgical materials, whereas, IFN-gamma had no effects. Antineoplastic effect of each IFN well correlated with FITC-positive rates, demonstrating S phase block in the cell cycle. IFN-gamma had no antineoplastic effects, whereas IFN-alpha and beta showed antineoplastic effects, which fact suggested that IFN-gamma receptor be different from those of IFN-alpha and beta. The method of FITC-labelling for IFNs with the aid of FCM has the advantages as follows: 1) Antineoplasticity of IFN can be simply evaluated with FCM; 2) It is easy to analyze the action mechanism of IFN; 3) Information on the receptor is obtainable; and 4) Sensitivity can be evaluated prior to administration of IFN, suggesting possibilities of clinical application of this method.
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PMID:Flow cytometric analysis of antineoplastic effects of interferon-alpha, beta and gamma labelled with fluorescein isothiocyanate on cultured brain tumors. 182 42

Interferon-gamma(IFN-gamma) has been shown to induce class II major histocompatibility complex (MHC) antigens on several cell types. Previous analysis of cell lines including a glioblastoma multiforme line by our laboratory has mapped an IFN-gamma-responsive element to the upstream - 141 to - 109 base pair (bp) region of the DRA promoter. Using deletion mutants, this report shows that this same general region (-135 to -109 bp) is important for IFN-gamma induction in two other human glioma lines and more importantly in primary astrocytes. We have confirmed that this regulatory region of the HLA-DRA gene is necessary for IFN-gamma inducibility in astrocytes using a substitution mutant. Sequences beyond -135 bp do not appear to have any additional positive or negative elements.
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PMID:Identification of an interferon-gamma-responsive element of a class II major histocompatibility gene in rat type 1 astrocytes. 189 71

We have studied the effect of tumor necrosis factor (TNF-alpha) on transformed neural and glial-derived cell lines. TNF-alpha at physiological doses was able to arrest the growth and inhibit DNA synthesis of N103 neuroblastoma cells. This phenomenon was accompanied by a morphological cell differentiation characterized by the outgrowth of neurites. By contrast, TNF-alpha induced an increase in the growth rate of C6 glioma cells and upon cytokine addition a higher number of C6 cells were found in the S + G2 phase of the cell cycle. C6 cells did not show morphological changes under this treatment. Analogous results were obtained with IFN-gamma. These neurotrophic and mitogenic effects of TNF-alpha suggest a putative role of this cytokine in the regeneration of brain tissue upon brain injury.
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PMID:Differential effects of tumor necrosis factor on the growth and differentiation of neuroblastoma and glioma cells. 190 93

The antiproliferative effects of human interferons (IFNs) and double-stranded RNAs (dsRNAs) were studied in five human glioma cell lines. Dose response curves were generated over a 72 hour treatment period. The concentration of interferon or double-stranded RNA necessary to produce a 50% antiproliferative response (GI50) was calculated by linear regression analysis. Two cell lines were more sensitive to IFN-beta than to IFN-alpha, one cell line was more sensitive to IFN-alpha than to IFN-beta and two cell lines had approximately equal sensitivities to both interferons. All cell lines showed some sensitivity to either IFN-alpha or IFN-beta. IFN-gamma had no antiproliferative effect on any of the cell lines. In addition, only one of the cell lines displayed sensitivity to dsRNA, in which the response to poly(I).poly(C) was greater than that to a mismatched analogue of poly(I).poly(C), r(I)n.r(C12,U)n (Ampligen). There was no correlation between the sensitivities to type I IFNs (alpha and beta), type II IFN (gamma) or the dsRNAs. The antiproliferative effect of combinations of IFNs, or IFNs and Ampligen, was studied in one of the cell lines. A significant synergistic antitumor effect was seen with all of the IFN/Ampligen combinations (p less than 0.02), including IFN-gamma/Ampligen, even though these cells were resistant to IFN-gamma alone. Synergy was also seen in the IFN-alpha/IFN-gamma (p less than 0.02) and IFN-beta/IFN-gamma (p less than 0.05) combinations. The IFN-alpha/IFN-beta combination gave an additive antitumor effect. These results indicate that IFN-alpha and IFN-beta alone or combinations of type I IFNs, type II IFNs and Ampligen can be effective in inhibiting the growth of glioma cells.
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PMID:Sensitivities of human glioma cell lines to interferons and double-stranded RNAs individually and in synergistic combinations. 245 Jan 81

Neuroblastoma cell lines can have very low MHC Ag expression. The cell lines are insensitive to allo-killing by primed CTL, but are sensitive to non-MHC-restricted cytotoxicity. IFN-gamma increased class I expression, but the cells remained insensitive to CTL. Susceptibility to nonrestricted effectors was preserved. Class I+ glioma cell lines behaved similarly. The CTL resistance was localized to the recognition phase. Neuroblastoma lines did not form conjugates with primed T cells, but were lysed if they were coupled to the effectors via lectins. The levels of class I expression, and resistance to CTL, were constant over a range of IFN doses. HLA-A,B,C structure and distribution were studied more intensively on one cell line, CHP-100. HLA-A2 and -A3 were present on greater than or equal to 99% of the cells, in a unimodal distribution. After IFN treatment, the levels were similar to B cell controls. In two-dimensional gel electrophoresis, the molecules co-migrated with those of B cell controls. The defect may thus be in accessory proteins that are necessary for T cell recognition or binding, rather than in the structure or distribution of the HLA-A,B,C proteins.
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PMID:IFN-treated neuroblastoma cell lines remain resistant to T cell-mediated allo-killing, and susceptible to non-MHC-restricted cytotoxicity. 245 35

The purpose of this work was to analyze cDNA encoding human monocyte chemoattractant protein-1 (MCP-1), previously isolated from glioma cell line culture fluid. Screening of a cDNA library from total poly(A) RNA of glioma cell line U-105MG yielded a clone that coded for the entire MCP-1. Nucleotide sequence analysis and comparison with the amino acid sequence of purified MCP-1 showed that the cDNA clone comprises a 53-nucleotide 5'-non-coding region, an open reading frame coding for a 99-residue protein of which the last 76 residues correspond exactly to pure MCP-1, and a 389-nucleotide 3'-untranslated region. The hydrophobicity of the first 23 residues is typical of a signal peptide. Southern blot analysis of human and animal genomic DNA showed that there is a single MCP-1 gene, which is conserved in several primates. MCP-1 mRNA was induced in human peripheral blood mononuclear leukocytes (PBMNLs) by PHA, LPS and IL-1, but not by IL-2, TNF, or IFN-gamma. Among proteins with similar sequences, the coding regions of MCP-1 and mouse JE show 68% identity. This suggest that MCP-1 is the human homologue of the mouse competence gene JE.
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PMID:Human monocyte chemoattractant protein-1 (MCP-1). Full-length cDNA cloning, expression in mitogen-stimulated blood mononuclear leukocytes, and sequence similarity to mouse competence gene JE. 246 24

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