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

C6 glioma cells in culture were treated with 1 mM dibutyryl cyclic AMP (Db-cAMP) for 5, 8, 24 and 72 h. The cells were labelled with [3H]-thymidine before either the end, or the beginning, of the Db-cAMP treatment. The cell cycle passage was monitored by the simultaneous determination of DNA content and DNA synthesis in propidium iodide stained autoradiograms. The data revealed an early (t less than or equal to 3-8 h) and moderate inhibitory effect of Db-cAMP on all phases of the cell cycle except mitosis; some cells (2%) were completely blocked in the S phase. Later (8 less than t less than 24-72 h), the cycling of a substantial part of the population became inhibited in G1 phase. Microdensitometric texture analysis of Feulgen-stained nuclei, performed 24 h after administration of Db-cAMP, showed a higher inhomogeneity of the DNA distribution in cell nuclei, caused by the condensation of a part of the chromatin. This may reflect either changes in genome expression taking part in the process of cAMP induced differentiation or transit of some cells into quiescent G0 or S0 phases.
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PMID:Changes in cell cycle and chromatin distribution in C6 glioma cells treated by dibutyryl cyclic AMP. 166 44

DNA methylation at HpaII (CmCGG) sites inhibits expression of a human proenkephalin-CAT fusion gene when it is transiently expressed in CV-1 cells or stably expressed in C6-glioma cells. The inhibitory effects of HpaII methylation have been mapped to a site within the human proenkephalin promoter located at position -72 relative to the start site of transcription. This region spans a cAMP and phorbol ester inducible enhancer and methylation at this position inhibits both basal transcription and transcription induced by either cAMP or TPA. The HpaII site is located within an element which binds the transcription factor AP-2. In vitro methylation at this HpaII site inhibits the binding of AP-2. These results suggest that CpG methylation inhibits proenkephalin gene expression by directly interfering with the binding of a positively acting transcription factor previously shown to be essential for maximal basal, cAMP, and TPA inducible transcription.
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PMID:CpG methylation inhibits proenkephalin gene expression and binding of the transcription factor AP-2. 169 33

C6-2B rat glioma cells were stably transfected with substance K receptor cDNA and used to study interactions between cAMP and Ca2+ signaling pathways. Activation of the newly expressed receptors by substance K increased the intracellular free Ca2+ concentration, as monitored by single-cell fura-2 imaging, and markedly inhibited agonist-stimulated cAMP accumulation. Blockade of intracellular Ca2+ mobilization abolished the substance K receptor-mediated inhibition of isoproterenol-induced cAMP production. Phosphodiesterase inhibitors, down-regulation or inhibition of protein kinase C, and pertussis toxin failed to prevent substance K-induced inhibition of agonist-stimulated cAMP accumulation. An increased intracellular Ca2+ concentration caused by either calcium ionophores or activation of endogenous bradykinin receptors was found to markedly reduce cAMP production in wild-type cells. These results demonstrate that elevated intracellular Ca2+ concentration can negatively modulate agonist-stimulated adenylate cyclase activity in C6-2B glioma cells.
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PMID:Inhibition of cAMP accumulation by intracellular calcium mobilization in C6-2B cells stably transfected with substance K receptor cDNA. 171 1

Human T-cell lymphotropic virus type I (HTLV-I), an etiologic agent for adult T-cell leukemia, is strongly associated with certain neurological diseases. The HTLV-I genome encodes a protein, Tax1, that transactivates viral gene transcription. CD4-positive T helper lymphocytes express the proenkephalin gene, and enkephalins have been implicated as neuroimmunomodulators. We have investigated the effect of Tax1 on the proenkephalin gene promoter in C6 rat glioma cells and demonstrated its transactivation. Analysis using 5' deletion mutants of the promoter region showed that sequences upstream of base pair -190 are necessary for maximal transactivation. Forskolin, a cAMP modulator, synergistically increased Tax1-mediated transactivation of the proenkephalin promoter. Neither Tax1 transactivation alone nor Tax1/cAMP synergism exclusively involved cAMP-responsive elements. Endogenous proenkephalin gene expression increased in Tax1-expressing C6 cells. Since HTLV-I infects lymphocytes, which express proenkephalin mRNA, Tax1 transregulation of proenkephalin expression may provide bidirectional communication between the nervous and immune systems in HTLV-I-related diseases.
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PMID:Transactivation of the proenkephalin gene promoter by the Tax1 protein of human T-cell lymphotropic virus type I. 173 81

Clonal lines of murine neuroblastoma (NBP2) and rat glioma (C6) were used to investigate the effects of methylmercuric chloride (CH3HgCl). Glioma cells were more sensitive to CH3HgCl than NB cells on the criterion of growth inhibition, but these cells were equally sensitive to inorganic mercury (HgCl1), Tri-n-butyl lead acetate and acrylamide on the same criterion. Alpha-tocopherol, alpha-tocopheryl++ succinate and inhibitors of cAMP phosphodiesterase protected glioma cells against the growth-inhibitory effect of CH3HgCl, but they failed to protect NB cells in culture. Glioma factors, sodium ascorbate, non-inhibitory concentrations of prostaglandins E1 (PGE1), and glutamate enhanced the growth-inhibitory effect of CH3HgCl on both NB and glioma cells in culture. The levels of certain specific cAMP-dependent and -independent protein phosphorylations appear to be very sensitive to CH3HgCl, and can be altered in both cell types by concentrations of CH3HgCl which do not affect growth or morphology of these cells.
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PMID:New opportunities with neuronal cultures to study the mechanisms of neurotoxic injuries. 174 37

C6 rat glioma cells were investigated for a shared unidirectional efflux system for cAMP and cholate. [3H]Cholate was accumulated (at pH 7.3) by scraped C6 cell monolayers via a process which was rapid initially and then slowed to a steady state after 10 min at 37 degrees C. Release of the accumulated label was also rapid (t1/2 = 2 min), was essentially complete within 15 min, and exhibited energy dependence since it could be blocked by antimycin A. Half-maximal inhibition by antimycin A occurred at 0.87 microM, and maximal inhibition exceeded 90%. Various other compounds also inhibited [3H]cholate efflux. The most effective was prostaglandin A1, which reduced efflux half-maximally at a concentration of 0.14 microM. Other inhibitors, prostaglandin B1, verapamil, probenecid, and bromosulfophathalein, produced half-maximal inhibition at 5.3, 42, 78, and 110 microM, respectively. Cholate efflux was also blocked by 40 microM vincristine. Initial influx of [3H]cholate was not affected by antimycin A, prostaglandin A1, or vincristine and hence was attributed to a process separate from efflux. C6 rat glioma cells also have the ability to produce high intracellular levels of cAMP in response to isoproterenol and to release cAMP into the medium via a carrier-mediated efflux system. When measured under the same conditions employed for cholate efflux, the efflux of cAMP was found to be sensitive to each of the inhibitors of cholate efflux. Moreover, plots of cAMP efflux versus varying concentrations of prostaglandin A1, antimycin A, prostaglandin B1, verapamil, and probenecid showed similar response curves and comparable values for half-maximal These results indicate that C6 rat glioma cells contain a unidirectional efflux pump for cholate and that this same system also appears to mediate the unidirectional efflux of cAMP. These findings support the hypothesis that various cells contain efflux pumps which exhibit a broad specificity for large organic anions of diverse structure and that the function of these efflux pumps resides primarily in cellular anion detoxification. Analogous efflux pumps for hydrophobic drugs are overproduced in tumor cells exhibiting multidrug resistance.
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PMID:Evidence for cAMP and cholate extrusion in C6 rat glioma cells by a common anion efflux pump. 184 62

Previous experiments have demonstrated that double-stranded RNAs (dsRNAs) can exert an antiproliferative effect on human tumor cells, independent of interferon (IFN) induction. However, the mechanism by which dsRNAs inhibit tumor growth has not been elucidated. As a first step in determining the molecular events responsible for growth arrest, we have explored the role of signal transduction through the cAMP system in the antiproliferative effect of the mismatched dsRNA, r(I)n.r(C12,U)n (Ampligen). These studies utilized the human glioma cell line A1235, which does not produce detectable levels of IFN-alpha, -beta, or -gamma in response to mismatched dsRNA treatment. Treatment of A1235 cells with mismatched dsRNA in combination with either 1-(5-isoquinolinesulfonyl)-2-methylpiperazine (H-7), which inhibits cAMP-dependent protein kinase and protein kinase C, or N-(2-guanidinoethyl)-5-isoquinolinesulfonamide (HA1004), which preferentially inhibits the cAMP-dependent protein kinase, yielded an antagonism of the mismatched dsRNA-induced antiproliferative effect. Measurement of adenylate cyclase activation showed a dose-dependent increase in activity at antiproliferative mismatched dsRNA concentrations, but not at lower, nonantiproliferative doses. This increase in activity was rapid, seen as early as 30 sec after initiation of treatment, and it was sustained at peak levels for 1-2 hr. Analysis of the intracellular cAMP concentration gave similar kinetics of induction. Exposure of cells to the stable cAMP analogue dibutyryl cAMP yielded dose-dependent inhibition of cell growth. The cAMP phosphodiesterase inhibitor 3-isobutyl-1-methylxanthine also inhibited proliferation. In contrast, neither H-7 nor HA1004 had an effect on growth inhibition induced by human natural IFN-alpha treatment. In addition, antiproliferative doses of IFN-alpha did not increase cAMP concentrations. These results indicate that the cAMP system is utilized by mismatched dsRNA as an early signal transduction mechanism for growth control. Furthermore, the antiproliferative effects induced by mismatched dsRNA and IFN can occur by different mechanisms of action.
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PMID:Cyclic AMP mediates the direct antiproliferative action of mismatched double-stranded RNA. 184 67

Cultures of rat C6 rat glioma cells exhibit a diminished response to isoproterenol and forskolin after being treated with phorbol 12,13-dibutyrate (PDbU). An IC50 for PDbU of 38 +/- 5 nM and 62 +/- 8 nM was observed in the isoproterenol and forskolin response, respectively. Similarly, C6 cultures exhibited a diminished response to isoproterenol and forskolin after an overnight incubation with phospholipase C. We previously demonstrated that this treatment will increase diacylglycerol levels in these cells (Bressler: J Neurochem 48:181-186, 1987). An IC50 for phospholipase C of 6.0 +/- 0.1 x 10(-1) and 7.0 +/- 0.1 x 10(-1) units/ml was observed for the isoproterenol and forskolin response, respectively. A kinetic analysis suggests that the site of PDbU-mediated inhibition to beta-adrenergic and forskolin stimulation was different. Degradation of cAMP was a contributory factor since elevated cAMP levels decreased faster in PDbU treated cells than in nontreated cells. In addition, PDbU treated cells exhibited a significantly higher level of phosphodiesterase activity. We conclude that activation of protein kinase C and subsequent stimulation of phosphodiesterase activity contributes to the inhibition of the beta-adrenergic and forskolin mediated increase in cAMP levels in intact C6 rat glioma cells. The consequences of lower cAMP levels in sustaining differentiated function in the C6 rat glioma cell line will be discussed.
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PMID:Regulation of cAMP levels by protein kinase C in C6 rat glioma cells. 215 30

Treatment of NG108-15 neuroblastoma x glioma cells (24 h) with cholera toxin (0.1-10 micrograms/ml) resulted in a concentration-dependent reduction of the membrane levels of subunits of GTP-binding regulatory proteins (G proteins), as determined by quantitative immunoblot procedures. The extent of reduction differed for different types of subunits: the levels of Go alpha and G beta 1 were reduced by 40-50%, whereas those of G alpha common immunoreactivity and Gi2 alpha were only reduced by 10-20% following treatment with 10 micrograms/ml cholera toxin. This effect of the toxin could not be mimicked by incubation with the resolved B oligomer of cholera toxin, nor by exposure of cells to agents able to raise the intracellular levels of cAMP. Basal adenylate cyclase was stimulated in a biphasic manner by cholera toxin, being stimulated at low concentrations (0.01-10 ng/ml) and then decreased at high (0.1-10 micrograms/ml) concentrations. Thus, the down regulation of G-protein subunits produced by cholera toxin requires its (ADP-ribosyl)transferase activity but does not result from a cAMP-mediated mechanism. The toxin-mediated decrease of Go alpha in the membrane was correlated with a diminution of opioid-receptor-mediated stimulation of high-affinity GTPase activity, suggesting that opioid receptors interact with Go in native membranes of NG108-15 cells. Northern-blot analysis of cytoplasmic RNA prepared from cells treated with cholera toxin showed that the levels of mRNA coding for G beta 1 did not change. Thus, the cholera-toxin-induced decrease of G-protein subunits may not result from an alteration in mRNA levels, but may involve a direct effect of the toxin on the process of insertion and/or clearance of G proteins into and/or from the membrane. These data indicate that cholera toxin, besides catalyzing the ADP-ribosylation of Gs and Gi/Go types of G proteins, can also reduce the steady state levels of Go alpha and G beta 1 subunits in the membrane and thus alter by an additional mechanism the function of inhibitory receptor systems.
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PMID:Cholera toxin differentially decreases membrane levels of alpha and beta subunits of G proteins in NG108-15 cells. 215 84

Treatment of rat glioma C6 cells with a beta-adrenergic agonist leads to a rise in cAMP level and a subsequent change in cell morphology from an epithelial to an astrocyte type of appearance. This morphological change is reverted by the addition of thrombin. In 10-15 min the cells acquire their normal epithelial morphology. The reversion by thrombin is inhibited by hirudin, but not by antithrombin III (an inhibitor of the proteolytic action of thrombin). Using the intracellular Ca2(+)-indicator fura-2, we observed that the addition of thrombin to the glioma cells generated a Ca2(+)-signal which was inhibited by pretreatment of the cells with hirudin or with 1 mM neomycin. These results suggest that thrombin uses the phospholipid-inositol pathway to counteract the morphological response, which was induced by activation of the cAMP pathway.
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PMID:Thrombin reverts the beta-adrenergic agonist-induced morphological response in rat glioma C6 cells. 216 46


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