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)

Many different types of receptors couple to the inhibitory guanine nucleotide-binding protein (G protein) Gi. In NG108-15 neuroblastoma-glioma cells, alpha 2b-adrenergic, m4 muscarinic, and delta-opiate receptors all use Gi as a transducer. According to the ternary complex model of receptor-G protein interactions, agonists bind to these receptors with high affinity only in their G protein-associated form. Conversely, G protein affinity for the receptor is increased by agonist binding. We have developed an extended ternary complex model in which multiple receptors couple to a single G protein and we have examined two consequences of the model theoretically and experimentally. First, the simple ternary complex model can account for the observed high and low affinity agonist binding only when G protein is limiting; however, measurements show a significant excess of G protein over receptor. Could this paradox be explained by other receptors competing for the same G protein and limiting the amount of free G protein so that high and low affinity agonist binding would be seen? Our theoretical simulations show that this does not occur unless the receptors and G protein are present in a precise stoichiometric ratio and have an extremely high affinity, such as when agonists for both receptors are present. The second prediction of this model is that binding of an agonist at one receptor should produce competition for G protein used by another receptor. If the G protein pool were limiting and freely mobile, this would result in an unlabeled agonist at one receptor decreasing binding of a radiolabeled agonist to another receptor. Experimentally, the G protein was made limiting by a partial pertussis toxin treatment. Radioligand binding to alpha 2b-adrenergic and m4 muscarinic receptors in these pertussis toxin-treated NG108-15 membranes showed no cross-talk with the delta-opiate or muscarinic receptors, which are present in excess. This could occur because the different receptors interact with structurally different G proteins (e.g., distinct beta or gamma subunits). More likely it is because of limitations of the mobility of G proteins in the membrane due to 1) attachment to structural elements, such as the cytoskeleton, 2) sequestration in lipid pools, or 3) organization into slowly exchanging supramolecular complexes. These results show that we must reexamine the assumptions of the collision coupling and ternary complex models.
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PMID:Compartmentation of receptors and guanine nucleotide-binding proteins in NG108-15 cells: lack of cross-talk in agonist binding among the alpha 2-adrenergic, muscarinic, and opiate receptors. 809 95

Increasing evidence indicates that heterotrimeric G proteins, and in particular Go, regulate ionic channel activities. In order to investigate the role of Go proteins in the modulation of the Ca2+ influx, C6 glioma cells were stably transfected with alpha o1 cDNA. Expression of the Go1 alpha protein was checked by Bordetella pertussis toxin-catalyzed ADP-ribosylation and Western blots using one- and two-dimensional gel analyses. Three clones were selected based on their degree of Go1 alpha expression. In alpha o1-transfected cells, cAMP accumulations, in response to isoproterenol or forskolin, were lower than in control cells. This inhibitory effect was a function of the amount of expressed Go1 alpha. In contrast, Go1 alpha expression was not followed by a significant inhibition of isoproterenol- or forskolin-stimulated adenylyl cyclase activities in particulate fractions. In C6 parental cells, 50-60% of the isoproterenol-induced cAMP accumulation was dependent on external Ca2+ concentration. This Ca(2+)-dependent cAMP accumulation was related to an induced transient Ca2+ influx. In transfected cells, expression of Go1 alpha inhibited the Ca2+ influx and the Ca(2+)-dependent component of isoproterenol-induced cAMP accumulation. In conclusion, beta-adrenergic agonists stimulate an entry of Ca2+ which exerts a positive feedback on cAMP production, and Go1 alpha blocks this positive feedback by inhibiting the Ca2+ influx.
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PMID:Transfected Go1 alpha inhibits the calcium dependence of beta-adrenergic stimulated cAMP accumulation in C6 glioma cells. 809 96

Opioids elicit an increase in the intracellular free Ca2+ concentration ([Ca2+]i) in neuroblastoma x glioma hybrid NG108-15 cells, which, depending upon growth conditions, results from either Ca2+ influx in differentiated cells or Ca2+ release from internal stores in undifferentiated cells (Jin et al., 1992). In this report we describe fura-2-based digital imaging studies that demonstrate that opioid-evoked Ca2+ release in these cells results from the activation of phospholipase C (PLC) and subsequent mobilization of the inositol 1,4,5-trisphosphate (IP3)-sensitive store. D-Ala2-D-Leu5-enkephalin (DA-DLE) evoked concentration-dependent increases in [Ca2+]i (EC50 approximately equal to 4 nM). The response was blocked by naloxone (1 microM). In single cells, sequential application of selective opioid agonists (10 nM) evoked responses of the rank order DADLE = D-Pen2, D-Pen5-enkephalin (DPDPE) > trans-(+/-) 3,4-dichloro-N-methyl-N-(2-[1- pyrrolidinyl]cyclohexyl) benzeneacetamide (U50488) > D-ala2, N-Me-Phe4, Gly5-ol-enkephalin (DAMGO), consistent with activation of a delta-opioid receptor. Forty percent (n = 198) of the cells responded to 100 nM DADLE with a net [Ca2+]i increase of 483 +/- 40 nM. Bradykinin (100 nM) elicited a response in 91% of the cells with a mean net amplitude of 707 +/- 36 nM. The DADLE-evoked responses were not blocked by removal of extracellular Ca2+; instead, they were abolished by treatment with 10 nM thapsigargin, an agent that depletes and prevents refilling of IP3-sensitive Ca2+ stores. A 1 microM concentration of U73122, an aminosteroid inhibitor of PLC, completely blocked the DADLE-evoked [Ca2+]i increase, while an inactive analog, U73433, was without effect. To explore the possible role of G-proteins in mediating opioid-induced [Ca2+]i increases in NG108-15 cells, we pretreated cells with pertussis or cholera toxin; pertussis toxin blocked the opioid-induced response while cholera toxin was without effect, consistent with a Gi- or Go-mediated effect. Activation of the opioid inhibitory pathway previously described for these cells appears to stimulate the phosphoinositide (PI) cascade as well. Including the PI cascade among the multiple second messenger systems modulated by opioids may be key to understanding the biochemical events that underlie acute and chronic opioid action.
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PMID:Opioids mobilize calcium from inositol 1,4,5-trisphosphate-sensitive stores in NG108-15 cells. 815 47

Incubation of C6-2B rat glioma cells with UDP or UTP resulted in a time- and concentration-dependent increase in the accumulation of inositol phosphates. In contrast, ATP, ADP, and analogs of these nucleotides known to be effective agonists at P2U-, P2X-, P2Y-, P2T-, and P2Z-purinergic receptors all had no effect on inositol phosphate levels in C6-2B cells. Pyrimidine nucleotides stimulated inositol phosphate accumulation with an order of potency of UDP > 5-BrUTP > UTP > dTDP > UDP glucose. K0.5 values for UDP, 5-BrUTP, and UTP were 2.3 +/- 0.5, 9 +/- 3, and 57 +/- 10 microM, respectively. A similar uridine nucleotide selectivity was observed for arachidonic acid release presumably occurring as a consequence of activation of phospholipase A2. Cross-desensitization and additivity experiments indicated that UDP and UTP interact with the same population of receptors. The effect of uridine nucleotides on inositol phosphate accumulation was inhibited markedly by pretreatment of cells with pertussis toxin. UDP also caused a guanine nucleotide-dependent increase in inositol lipid hydrolysis in streptolysin-O-permeabilized cells. Taken together these results describe the existence of a novel uridine nucleotide receptor that is not activated by adenine nucleotides. This receptor is pharmacologically distinct from the previously described P2U- and other P2-purinergic receptors, and likely is a member of a new class of receptors for extracellular nucleotides.
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PMID:Identification of a uridine nucleotide-selective G-protein-linked receptor that activates phospholipase C. 816 81

Adenine nucleotides inhibited isoproterenol- and forskolin-stimulated cyclic AMP accumulation in C6-2B rat glioma cells. Inhibition occurred in the presence of a phosphodiesterase inhibitor, and no effect of adenine nucleotides was observed in direct measurements of phosphodiesterase activity in intact cells. Pretreatment of C6-2B glioma cells with pertussis toxin blocked the inhibitory effects of P2Y-purinergic receptor agonists. The pharmacological specificity for a series of ATP and ADP analogs (2-methylthioadenosine 5'-triphosphate > or = 2-methylthioadenosine 5'-diphosphate > adenosine 5'-O-(2-thiodiphosphate) > 2-chloro-adenosine 5'-triphosphate = ADP = adenosine 5'-O-(3-thiotriphosphate) > ATP > UTP) was similar to that expected of a P2Y-purinergic receptor; the P2X-purinergic receptor agonists, alpha,beta-methyleneadenosine 5'-triphosphate and beta,gamma-methylene-adenosine 5'-triphosphate, had no effect. Because activation of phospholipase C occurs in response to P2-purinergic receptor activation in many target tissues, the effects of P2Y-receptor agonists on inositol phosphate accumulation were measured in C6-2B cells. No evidence for P2Y-purinergic receptor-mediated regulation of inositol lipid metabolism was observed under conditions where muscarinic cholinergic receptor activation or AIF4-markedly increased inositol phosphate accumulation. These results suggest that a P2-purinergic receptor subtype with distinct signaling properties exists on C6-2B rat glioma cells. Although this receptor expresses the general pharmacological specificity of a phospholipase C-coupled P2Y-purinergic receptor, it may represent a unique receptor subtype since it inhibits adenylyl cyclase.
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PMID:Identification of a P2Y-purinergic receptor that inhibits adenylyl cyclase. 826 74

1. Acetylcholine (ACh) produces two membrane current changes when applied to NG108-15 mouse neuroblastoma x rat glioma hybrid cells transformed (by DNA transfection) to express m1 muscarinic receptors: it activates a Ca(2+)-dependent K+ conductance, producing an outward current, and it inhibits a voltage-dependent K+ conductance (the M conductance), thus diminishing the M-type voltage-dependent K+ current (IK(M)) and producing an inward current. The present experiments were undertaken to find out how far inhibition of IK(M) might be secondary to stimulation of phospholipase C, by recording membrane currents and intracellular Ca2+ changes with indo-1 using whole-cell patch-clamp methods. 2. Bath application of 100 microM ACh reversibly inhibited IK(M) by 47.3 +/- 3.2% (n = 23). Following pressure-application of 1 mM ACh, the mean latency to inhibition was 420 ms at 35 degrees C and 1.79 s at 23 degrees C. Latencies to inhibition by Ba2+ ions were 148 ms at 35 degrees C and 92 ms at 23 degrees C. 3. The involvement of a G-protein was tested by adding 0.5 mM GTP-gamma-S or 10 mM potassium fluoride to the pipette solution. These slowly reduced IK(M), with half-times of about 30 and 20 min respectively, and rendered the effect of superimposed ACh irreversible. Effects of ACh were not significantly changed after pretreatment for 24 h with 500 ng ml-1 pertussis toxin or on adding up to 10 mM GDP-beta-S to the pipette solution. 4. The role of phospholipase C and its products was tested using neomycin (to inhibit phospholipase C), inositol 1,4,5-trisphosphate (InsP3) and inositol 1,3,4,5-tetrakisphosphate (InsP4), heparin, and phorbol dibutyrate (PDBu) and staurosporin (to activate and inhibit protein kinase C respectively). Both neomycin (1 mM external) and InsP3 (100 microM intrapipette) inhibited the ACh-induced outward current and/or intracellular Ca2+ transient but did not block ACh-induced inhibition of IK(M). Intrapipette heparin (1 mM) blocked activation of IK(Ca) and reduced Ach-induced inhibitions of IK(M), but also reduced inhibition of ICa via endogeneous m4 receptors. PDBu (with or without intrapipette ATP) and staurosporin had no significant effects.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:On the mechanism of M-current inhibition by muscarinic m1 receptors in DNA-transfected rodent neuroblastoma x glioma cells. 827 Nov 96

Treatment of rat C6 glioma cells with the tricyclic antidepressant desipramine induces opioid binding. Here the distribution of these opioid-binding sites on C6 cell membranes and a functional property were investigated. Immunohistochemical examination of C6 cells was performed using a monoclonal anti-idiotypic antibody to opioid receptors (Ab2AOR). Ab2AOR uniformly labeled > 97% of the cells exposed to desipramine over their entire surface. The opioid-receptor antagonist naltrexone completely blocked Ab2AOR binding. Ab2AOR, which has opioid agonist properties, also inhibited DNA synthesis in desipramine-treated but not in naive C6 cells. Similarly, morphine blocked C6 cell proliferation only after desipramine treatment. The antineurotrophic action of Ab2AOR was reversed by naltrexone and was insensitive to pertussis toxin. These findings demonstrate that Ab2AOR suppresses the proliferation of C6 glioma cells by binding to desipramine-induced opioid receptors.
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PMID:A monoclonal anti-idiotypic antibody to opioid receptors labels desipramine-induced opioid binding sites on rat C6 glioma cells and attenuates thymidine incorporation into DNA. 830 Jan 89

Endothelin-1 (ET) and ATP mobilize Ca2+ in rat C6 glioma cells by stimulating phosphoinositide turnover. Both agents also inhibit adenylyl cyclase (AC) activity in C6 glioma cells. The goal of this study was to characterize the molecular mechanisms responsible for the inhibition of AC activity. The administration of either ET, ATP, A23187, or thapsigargin to cells simultaneously with isoproterenol for 5 min inhibited isoproterenol-stimulated cAMP synthesis by a maximum of 60%, 91%, 65%, and 68%, respectively. Pretreatment of cells with pertussis toxin (PTX) did not alter the inhibitory effects of A23187 or thapsigargin, whereas the inhibitory effects of ET or ATP were completely eliminated. Removal of extracellular Ca2+ and 1,2-bis(2-aminophenoxy)ethane-N,N,N',N'- tetraacetic acid acetoxymethyl ester treatment failed to affect the inhibition caused by ET or ATP, whereas the inhibition caused by A23187 or thapsigargin was completely eliminated in Ca(2+)-free medium and was attenuated by 1,2-bis(2-aminophenoxy)ethane-N,N,N',N'-tetraacetic acid acetoxymethyl ester treatment. The inhibition by both receptor agonists in the earlier phase (30 sec) of the AC reaction was, however, reduced by using either Ca(2+)-free medium or PTX pretreatment. The administration of 3-isobutyl-1-methylxanthine or Ro 20-1724 suggested that the inhibitory effects of A23187 and thapsigargin were partially due to Ca(2+)-dependent stimulation of PDE activity. Short term treatment with phorbol-12-myristate-13-acetate (PMA) had no effect on isoproterenol-stimulated AC activity. However, the inhibition of cAMP induced by ET or ATP, but not by A23187 or thapsigargin, was diminished by PMA, suggesting that the receptor signal via Gi was blocked by PMA treatment. The antagonistic effect of PMA was blocked by staurosporine. All four agents still inhibited AC activity in cells that had been treated with PMA for 24 hr to deplete protein kinase C. ET produced an additional decrease in AC activity in cells that had been treated with a maximally effective concentration of A23187 or thapsigargin. The ET- or ATP-induced decrease in cAMP levels showed homologous desensitization. These results demonstrate that ETZ receptors and ATP receptors in C6 glioma cells inhibit AC activity primarily by interaction with a PTX-sensitive G(i) and partially by elevation of [Ca(2+)]. Protein kinase C activation is not responsible for agonist-induced inhibition of AC but appears to uncouple the G(i)/AC system activated by ET or ATP.
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PMID:Endothelin- and ATP-induced inhibition of adenylyl cyclase activity in C6 glioma cells: role of Gi and calcium. 834 Dec 70

Anandamide (arachidonyl ethanolamide) has been identified as an endogenous ligand of cannabinoid receptors on the basis of its ability to displace 3H-labeled synthetic cannabinoid in a binding assay. One well characterized cellular action of cannabinoids is inhibition of hormonally stimulated adenylyl cyclase. Another action of synthetic cannabinoids is potent, stereospecific, and reversible inhibition of N-type calcium currents (ICa) in the NG108-15 neuroblastoma-glioma cell line via a pertussis toxin (PTX)-sensitive pathway, independently of cAMP metabolism. Here we used the N18 neuroblastoma cell line and the whole-cell voltage-clamp technique to show that anandamide also potently inhibits N-type ICa in a PTX-sensitive fashion. As with the cannabinomimetic aminoalkylindole WIN 55,212-2, inhibition by anandamide was voltage dependent and N-ethylmaleimide sensitive. However, anandamide was less efficacious than either WIN 55,212-2 or the nonclassical cannabinoid CP 55,940. Indeed, anandamide appears to act as a partial agonist at the cannabinoid receptor. Application of WIN 55,212-2 always caused further inhibition of ICa in cells exposed to a maximally effective concentration of anandamide, and application of anandamide always caused a partial recovery of ICa in cells exposed to a maximally effective concentration of WIN 55,212-2. This partial agonist property of anandamide suggests that, although anandamide inhibits N-type ICa via a PTX-sensitive G protein, its action as a neuromodulator in the intact animal may be more complex than would be inferred by extrapolating the results of in vivo studies with (-)-delta 9-tetra-hydrocannabinol or synthetic cannabinoids.
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PMID:Anandamide, an endogenous cannabinoid, inhibits calcium currents as a partial agonist in N18 neuroblastoma cells. 837 11

Administration of carbachol, noradrenaline, and bradykinin induced Egr-1 mRNA expression within 1 h in mouse neuroblastoma x rat glioma hybrid NG108-15 cells. With specific receptor antagonists, the Egr-1 inductions by carbachol and noradrenaline were shown to be mediated via cholinergic muscarinic and alpha 2-adrenergic receptors, respectively. At their saturation levels for Egr-1 induction, the two agonists had additive effects when added together, but no prolongation of the effect on Egr-1 induction was observed. Addition of carbachol or noradrenaline 6 h after primary stimulation with carbachol or noradrenaline did not result in secondary Egr-1 induction, probably because of receptor desensitization. On the other hand, bradykinin consistently had an additive effect on Egr-1 induction, irrespective of the time of its addition, suggesting that the signal pathways for Egr-1 induction by carbachol or noradrenaline and by bradykinin are different. Treatment of cells with pertussis toxin or cholera toxin strongly inhibited Egr-1 induction by carbachol or noradrenaline but only partially inhibited the induction by bradykinin. Thus, the signals transduced in NG108-15 cells by different neurotransmitter receptors appear to have different effects on Egr-1 induction, depending on the times of stimulation and the combinations of receptors stimulated.
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PMID:Additive induction of Egr-1 (zif/268) mRNA expression in neuroblastoma x glioma hybrid NG108-15 cells via cholinergic muscarinic, alpha 2-adrenergic, and bradykinin receptors. 838 64


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