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)

Incubation of the C6 cells with 10 microM idazoxan (an alpha 2-adrenoceptor antagonist and putative antidepressant) for 5 days in vitro resulted in a 23% reduction of beta-adrenoceptor number and a 37% decrease in isoproterenol-induced cyclic AMP accumulation. In contrast, post-receptor stimulated cyclic AMP accumulation (by the use of forskolin or cholera toxin) was unaffected. The desensitization of the beta-adrenoceptor was accompanied by an increase in the KL/KH ratio for this receptor. Chronic in vitro treatment of C6 glioma cells with idazoxan did not significantly affect cholera or pertussis toxin catalyzed ribosylation of Gs and Gi/Go in these cells. Similarly, idazoxan did not alter either the basal levels of protein kinase C (PKC) alpha, or its cytoplasm to membrane translocation. These results suggest that idazoxan may have direct postsynaptic effects, the site of which may be at the level of receptor/G protein interaction.
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PMID:Idazoxan down-regulates beta-adrenoceptors on C6 glioma cells in vitro. 136 12

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

Exposure of C62B rat glioma cells to fresh medium containing fetal bovine serum induced a sensitization of the subsequent ability of isoproterenol and forskolin to stimulate cyclic AMP accumulation, compared to cells exposed to fresh medium without serum. Isoproterenol stimulation was typically increased by 2- to 4-fold and forskolin stimulation by 3- to 5-fold. Sensitization occurred rapidly, was rapidly reversible and appeared to result from an increase in maximal stimulation. A commercial preparation of albumin, purified chromatographically so as to retain bound lipids and other factors, was able to mimic the effect of serum. In contrast to the effects of serum, exposure of cells to phorbol 12-myristate, 13-acetate induced little or no change in forskolin stimulation but a marked desensitization of isoproterenol stimulation that was due primarily to a decrease in potency. Neither the protein kinase C inhibitor staurosporine or overnight exposure to phorbol 12-myristate, 13-acetate to down-regulate protein kinase C prevented serum-induced sensitization. Pertussis toxin almost completely blocked serum-induced sensitization, suggesting involvement of a pertussis toxin-sensitive guanine nucleotide-binding protein in mediating the effects of serum. Sensitization was poorly retained in membrane adenylate cyclase assays. Studies with the phosphodiesterase inhibitor 3-isobutyl-1-methylxanthine, direct assays of cyclic AMP degradation by intact cells and assays of phosphodiesterase activity in cell lysates all indicated that degradation of cyclic AMP was decreased in serum-pretreated cells. Thus, both increased cyclic AMP synthesis and decreased cyclic AMP degradation may contribute to sensitization in these cells.
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PMID:Serum-induced sensitization of cyclic AMP accumulation in C62B rat glioma cells. 138 77

Mouse neuroblastoma x rat glioma hybrid cells (N x G, 108CC15) were used to study the inhibitory effects of the synthetic opioid D-Ala2-D-Leu5-enkephalin (DADLE), somatostatin, adrenaline-alpha 2 and angiotensin II on voltage-dependent Ca(2+)-currents (ICa) using the patch-clamp technique in the whole-cell configuration mode. The inhibitory effects could be abolished by pretreatment of N x G cells with pertussis toxin or intracellular infusion of GDP beta S indicating an involvement of a pertussis toxin sensitive GTP-binding protein (G-protein), presumably Go. The effect of DADLE, the strongest inhibitor of ICa, was studied during dibutyryl cyclic AMP (dBcAMP) induced differentiation. Using omega-conotoxin GVIA (omega-CTX) and methoxyverapamil (D600) as specific Ca(2+)-channel blockers of the N- and L-type Ca(2+)-channels, it was found that in N x G cells DADLE predominantly induces inhibition of T- and N-type Ca(2+)-channels.
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PMID:Inhibitory modulation of fast and slow Ca(2+)-currents in neuroblastoma x glioma cells during differentiation. 165 35

A significant fraction of differentiated NG108-15 neuroblastoma/glioma cells have Ca2+ channel current different from that of undifferentiated cells. In the former cells, the Ca2+ channel sensitive to omega-conotoxin GVIA had slowed activation kinetics and was facilitated by depolarizing prepulses. These kinetic features are identical to those produced by inhibition of the channel by G proteins. Prolonged treatment with prostaglandin E1 and theophylline, agents that cause cellular differentiation, promoted incidence and extent of the tonic inhibition. Intracellular guanosine 5'-[beta-thio]diphosphate removed the tonic inhibition, suggesting sustained activation of a G protein, but pertussis toxin did not block it. A sulfhydryl alkylating agent, N-ethylmaleimide (0.1 mM), rapidly eliminated agonist-induced inhibition, whereas N-ethylmaleimide spared the tonic inhibition and the one induced by intracellular guanosine 5'-[gamma-thio]triphosphate. An agonist could further inhibit the Ca2+ channel that was already tonically inhibited. After washout of an inhibitory agonist, the tonic inhibition was temporarily removed. This "rebound facilitation" gradually faded within a few minutes. Pertussis toxin or N-ethylmaleimide prevented the rebound facilitation, whereas phorbol ester, forskolin, or arachidonic acid induced neither the rebound facilitation nor the tonic inhibition. Whatever its mechanism, the tonic inhibition of Ca2+ channels may serve as the basis for long-term and bidirectional regulation of activity of neuronal Ca2+ channels.
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PMID:Tonic inhibition and rebound facilitation of a neuronal calcium channel by a GTP-binding protein. 165 56

Cholera toxin treatment (up to 1 microgram/ml, 16 h) of neuroblastoma x glioma hybrid NG108-15 cells produced a decrease of some 35% in both delta opioid receptor-mediated stimulation of high-affinity GTPase activity and inhibition of forskolin-amplified adenylate cyclase. Coincident with these decreases was a down-regulation of some 35% in the delta opioid receptor population. A similar pattern of a decrease in signalling capacity was noted for the alpha 2B-adrenergic receptor in these cells after cholera toxin treatment. Half-maximal effects of cholera toxin on all of the parameters assayed were noted at concentrations between 2 and 5 ng/ml. Neither levels of Gi2, as assessed by immunoblotting with specific antisera, nor the intrinsic activity of the alpha subunit of the guanine-nucleotide-binding protein which acts as the inhibitory G-protein of the adenylate cyclase in these cells, as assessed by guanosine 5'-[beta gamma-imido]triphosphate (Gpp[NH]p)-mediated inhibition of adenylate cyclase, was lowered by cholera toxin treatment. Furthermore, levels of another pertussis toxin-sensitive G-protein (Go) expressed by these cells was also not lowered by cholera toxin treatment. However, as previously noted in other cells [Milligan, Unson & Wakelam (1989) Biochem. J. 262, 643-649], marked down-regulation of the alpha subunit of the stimulatory G-protein (Gs) of the adenylate cyclase cascade was observed in response to cholera toxin treatment. Previous studies [Klee, Milligan, Simonds & Tocque (1985) Mol. Aspects Cell Regul. 4, 117-129] have shown that cholera toxin treatment can result in a decrease in the maximal effectiveness of agonists which function to inhibit adenylate cyclase. These data have been used as evidence to suggest a functional interaction between Gs and 'Gi'. The results provided herein demonstrate that such effects of the toxin can be explained adequately by a decrease in the number of receptors that function to produce inhibition of adenylate cyclase.
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PMID:Cholera toxin impairment of opioid-mediated inhibition of adenylate cyclase in neuroblastoma x glioma hybrid cells is due to a toxin-induced decrease in opioid receptor levels. 167 34

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

The muscarinic acetylcholine receptor (mAChR) is an integral membrane protein that transduces stimulus to effectors through the activation of guanine nucleotide-binding (G) proteins. Four or more subtypes of mAChR were detected in various tissues, and their primary structures were elucidated by cloning and sequence analysis of complementary DNA. Functional differences between them existed when they were expressed in clonal culture cells. mAChRI (m1) and mAChRIII (m3) preferentially activated phosphoinositide (PI) hydrolysis and opened Ca(2+)-activated K+ channels followed by closure of the M (K+)-currents, while such current activities were rarely evoked by mAChRII (m2)- and mAChRIV (m4)-transformed cells. Although it has been reported that mAChRII and mAChRIV inhibited adenylate cyclase, there was little or no such inhibition by mAChRI and mAChRIII. It is known that heart and neuronal mAChR modulate voltage-sensitive Ca2+ currents, but which species of mAChR subtypes are involved has been poorly understood. Recently we identified that endogenous mAChRIV and exogenous mAChRII expressed in NG108-15 neuroblastoma-glioma hybrid cells, but not mAChRI and mAChRIII, efficiently depressed high-threshold Ca2+ currents in a pertussis toxin-sensitive manner.
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PMID:[Coupling of muscarinic acetylcholine receptors, m1/m3 and m2/m4, to phosphoinositide metabolism and Ca2+ channels in DNA-transfected NG108-15 cells]. 172 Jul 57

Endothelin (ET)-related peptides robustly stimulated [3H]-inositol phosphate (IP) formation in cultured cerebellar granule cells, astrocytes, and C6 glioma cells. Their agonist selectivities were ET-1 = ET-2 greater than or equal to sarafotoxin S6b greater than ET-3 greater than big ET-1 for granule cells and ET-1 greater than or equal to ET-2 greater than or equal to S6b greater than big ET-1 greater than ET-3 for cerebellar astrocytes and C6 glioma cells. These effects were Ca(2+)-dependent but insensitive to antagonists of L-type Ca2+ channels and the Na+/Ca2+ antiporter. Pretreatment of cells with ET-1 or S6b induced homologous desensitization of phosphoinositide (PI) response mediated by ET receptors. Long-term pertussis toxin (PTX) treatment attenuated the phosphoinositide (PI) response in astrocytes and glioma but not in granule cells. ET-1 and its related peptides increased [Ca2+]i in C6 glioma by two distinct pathways: IP3-induced Ca2+ mobilization or receptor-operated Ca2+ influx. La3+, Mn2+, and Cd2+ inhibited the Ca2+ influx and sustained PI turnover, while Ca2+ mobilization was attenuated by phorbol ester and TMB-8. ET-induced Ca2+ influx was essential for the sustained [Ca2+]i increase and PI turnover. Homologous desensitization of [Ca2+]i increase was also noted. In cerebellar granule cells, ET evoked the release of [3H]D-aspartate from these neurons. This action appears to be dependent on PI hydrolysis and [Ca2+]i increase and modulated by protein kinase C.
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PMID:Endothelin-induced activation of phosphoinositide turnover, calcium mobilization, and transmitter release in cultured neurons and neurally related cell types. 172 40

Endothelin-1 (ET) elevates intracellular calcium ([Ca2+]i) and increased [Ca2+]i has been associated with K+ efflux. Therefore, we investigated ET stimulation of K+ efflux in rat glioma C6-BU-1 cells. K+ efflux was measured by monitoring the release of 86Rb+ from cells pre-loaded with 86RbCl. ET stimulated 86Rb+ efflux with an EC50 of 5.9 nM. ET-stimulated 86Rb+ efflux was insensitive to Ca2+ channel blockade, however it was reduced by 68% in Ca(2+)-free buffer, suggesting a sizable dependence on an extracellular source of Ca2+ influx through non voltage-operated Ca2+ channels. ET-stimulated 45Ca2+ efflux slightly preceded 86Rb+ efflux, again suggesting the presence of Ca2+ dependent K+ channels. ET-stimulated 86Rb+ efflux was insensitive to glyburide suggesting that efflux is not through ATP-sensitive K+ channels. ET-stimulated 86Rb+ efflux was insensitive to pertussis toxin (PTX) pre-treatment. Pre-incubation with the protein kinase C (PKC) inhibitor, staurosporine, inhibited 86Rb+ efflux by 66%, suggesting the involvement of PKC activation in ET-mediated 86Rb+ efflux. In summary, in C6-BU-1 cells, ET stimulates Ca2+ dependent K+ efflux which is mediated in part by protein kinase C activation, but not a PTX sensitive G-protein, nor through an ATP-sensitive K+ channel. These data extend the intracellular mechanisms initiated by ET to include Ca2+ dependent K+ efflux in glial cells and further support a neuromodulatory role for ET.
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PMID:Endothelin stimulates 86Rb efflux in rat glioma C6-Bu-1 cells. 179 21

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