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)

In an NG 108-15 neuroblastoma x glioma hybrid cell suspension, extracellular ATP (via P2-purinergic receptors) and bradykinin stimulated Ins(1,4,5)P3 formation, which was accompanied by an increase in the cytosolic Ca2+ concentration ([Ca2+]i). Leucine enkephalin (EK) also slightly increased [Ca2+]i in the absence, but not in the presence, of apyrase, which hydrolyses extracellular ATP and ADP to AMP. When the cells were stimulated by P2-agonists or bradykinin prior to the application of EK, EK induces a remarkable rise in [Ca2+]i. This P2-agonist- or bradykinin-assisted EK action was also observed in single cells on a coverslip. A decrease in the extracellular Ca2+ concentration only slightly lowered the EK-induced rise in [Ca2+]i, but treatment of the cells with thapsigargin, an agent which depletes Ca2+ in the Ins(1,4,5)P3-sensitive pool, almost completely abolished EK action. The observed permissive stimulation by EK of Ins(1,4,5)P3 formation induced by a P2-agonist or bradykinin may be a primary event for the EK-induced [Ca2+]i rise. These actions of EK were antagonized by naloxone and completely reversed by prior treatment of the cells with pertussis toxin, whereas the toxin hardly affected the actions of P2-agonists and bradykinin themselves. Thus EK can induce phospholipase C activation and subsequent Ca2+ mobilization, provided that the cells have been previously or are simultaneously stimulated by endogenous adenine nucleotides or by externally applied P2-agonists or bradykinin. In this cross-talk mechanism between opioid receptors and these Ca(2+)-mobilizing agonist receptors, pertussis toxin-sensitive G-proteins play a permissive role.
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PMID:Enkephalin activates the phospholipase C/Ca2+ system through cross-talk between opioid receptors and P2-purinergic or bradykinin receptors in NG 108-15 cells. A permissive role for pertussis toxin-sensitive G-proteins. 838 79

Cholera toxin (CT) consists of a pentameric B subunit which binds to ganglioside GM1 on the cell surface and an A subunit which activates adenylylcyclase. The latter process involves the reduction of A to the A1 peptide which ADP-ribosylates the stimulatory G protein, Gs of adenylylcyclase. There is a distinct lag phase between toxin binding and activation of adenylylcyclase. Little is known about the events during this lag including where A1 is generated and how it gains access to Gs on the cytoplasmic side of the plasma membrane. We explored the effects of several inhibitors of intracellular trafficking on the response of human SK-N-MC neurotumor and Caco-2 intestinal tumor cells to CT. Whereas chloroquine or monensin had little or no effect on CT stimulation of cyclic AMP accumulation, brefeldin A (BFA) totally inhibited the response to CT in a time- and dose-dependent and reversible manner. BFA was effective when added at the same time as CT and had an IC50 of 30 ng/ml. BFA did not alter cell surface GM1 as cells treated with BFA for 30 min bound as much 125I-CT as control cells. Furthermore, BFA inhibited CT stimulation of GM1-treated rat glioma C6 cells. BFA treatment did not affect beta-adrenergic agonist stimulation of cyclic AMP. In addition, adenylylcyclase was activated by A1 peptide and NAD+ to the same extent in membranes from control and BFA-treated cells, or when BFA was added directly to the assay. Whereas control cells generated small amounts of A1 from bound CT with time, no A1 was detected in BFA-treated cells. BFA treatment did not prevent the internalization of CT but did inhibit its degradation. BFA is known to disrupt the organization of the Golgi complex, resulting in inhibition of protein transport from the endoplasmic reticulum and redistribution of Golgi enzymes to the endoplasmic reticulum. BFA also prevents the formation of non-clathrin-coated vesicles from Golgi membranes and thus vesicular transport between Golgi cisternae. We confirmed that BFA caused the morphological disruption of the Golgi apparatus in Caco-2 cells. The data support a role for a functional Golgi apparatus with its associated vesicular routing in CT action.
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PMID:Brefeldin A blocks the response of cultured cells to cholera toxin. Implications for intracellular trafficking in toxin action. 838 69

Extracellular ATP caused a dose-dependent accumulation of inositol phosphates and a rise in cytosolic free Ca2+ ([Ca2+]i) in C6 glioma cells with an EC50 of 60 +/- 4 and 10 +/- 5 microM, respectively. The threshold concentration of ATP (3 microM) for increasing [Ca2+]i was approximately 10-fold less than that for stimulating phosphoinositide (PI) turnover. The PI response showed a preference for ATP; ADP was about 3-fold less potent than ATP but had a comparable maximal stimulation (11-fold of the control). AMP and adenosine were without effect at concentrations up to 1 mM. ATP-stimulated PI metabolism was found to be partially dependent on extracellular Ca2+ and Na+ but was resistant to tetrodotoxin, saxitoxin, amiloride, ouabain, and inorganic blockers of Ca2+ channels (Co2+, Mn2+, La3+, or Cd2+). In Ca(2+)-free medium, ATP caused only a transient increase in [Ca2+]i as opposed to a sustained [Ca2+]i increase in normal medium. The ATP-induced elevation of [Ca2+]i was resistant to Na+ depletion and treatment with saxitoxin, verapamil and nisoldipine, but was attenuated by La3+. The differences in the characteristics of ATP-caused P1 hydrolysis and [Ca2+]i rise suggest that ATP receptors are independently coupled to phospholipase C and receptor-gated Ca2+ channels. Because of the robust effect of ATP in stimulating PI turnover and the apparent absence of P1-purinergic receptors, the C6 glioma cell line provides a useful model for investigating the transmembrane signalling pathway induced by extracellular ATP. The mechanisms underlying the unexpected finding of [Na+]o dependency for ATP-induced PI turnover require further investigation.
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PMID:Extracellular ATP stimulates inositol phospholipid turnover and calcium influx in C6 glioma cells. 838 91

We previously reported that transfection of antisense OBCAM (opioid-binding cell adhesion molecule) cDNA into NG108-15 neuroblastoma x glioma hybrid cells, which contain delta-opioid receptors, results in greatly reduced opioid binding (Ann, D. K., Hasegawa, J., Ko, J. L., Chen, S. T., Lee, N. M., and Loh, H. H. (1992) J. Biol. Chem. 267, 7921-7926. Here we report that these cells show altered coupling between opioid receptors and G-proteins. G-proteins were identified using cholera toxin (CTX)-induced ADP-ribosylation and antisera selective for Gi2 and Go alpha subunits. In the presence of delta-opioid agonists, CTX induced the incorporation of [32P]ADP-ribose into a 39-41-kDa protein with the same electrophoretic mobility as Gi2 and Go alpha subunits. This band, which was also a pertussis toxin (PTX) substrate, exhibited decreased CTX-induced ADP-ribosylation in membranes of cells treated chronically with D-Ala2-D-Leu5-enkephalin (DADLE). In cells transfected with antisense cDNA for OBCAM, labeling of this band was also decreased, compared with either sense-transfected or untransfected cells. DADLE inhibition of adenylyl cyclase and DADLE stimulation of GTPase were also greatly impaired in antisense cells, as well as GTP and GppNHp inhibition of basal and forskolin-stimulated adenylyl cyclase. These results provide further evidence for a role of OBCAM in opioid receptor function.
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PMID:Transfection of NG108-15 cells with antisense opioid-binding cell adhesion molecule cDNA alters opioid receptor-G-protein interaction. 839 63

1. Analogues of adenine nucleotides inhibited beta-adrenoceptor-stimulated cyclic AMP accumulation in C6 rat glioma cells with a pharmacological selectivity consistent with that for involvement of a P2Y-purinoceptor. 2. The inhibitory effect of adenine nucleotides was completely prevented by pretreatment of cells with pertussis toxin. 3. The capacity of a series of recently synthesized 2-thioether analogues of adenine nucleotides to inhibit cyclic AMP accumulation was examined. Several ATP analogues, e.g. 2-cyclohexylthio and 2-hexylthio ATP, inhibited cyclic AMP accumulation with EC50 values of approximately 30 pM. These values represent 100,000 fold increases in potency over ATP. 4. Analogues of ADP exhibited the same remarkable increase in potency relative to their natural congener and diphosphates were at least as potent as the corresponding triphosphates at the C6 cell P2Y-purinoceptor. 5. The relative potencies of a broad series of agonists at the C6 cell receptor did not correspond to the relative potencies of the same compounds for activation of P2Y-purinoceptors on turkey erythrocyte membranes. Some agonists, particularly 2-thioether derivatives were more potent for stimulation of the C6 cell receptor, whereas other agonists were more potent in the turkey erythrocyte system. 6. These results add further support to the view that the adenylyl cyclase-linked P2Y-purinoceptor of C6 rat glioma cells is a different subtype from the phospholipase C-linked P2Y-purinoceptor of turkey erythrocyte membranes and several mammalian tissues.
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PMID:Potent agonist action of 2-thioether derivatives of adenine nucleotides at adenylyl cyclase-linked P2Y-purinoceptors. 859 Sep 78

There is increasing evidence that pituitary ATP receptors may play a novel role in modulating pituitary function. This work reports the isolation and expression of a pituitary ATP receptor gene clone from a rat pituitary complementary DNA library. The isolated clone (rpP2U) has a 1125-bp coding sequence flanked by 483 bp of 5' - and 422 bp of 3'-untranslated sequences. The deduced 374-amino acid product shows structural features common to other G protein-coupled receptors, and when stably transfected into a glioma cell line lacking endogenous ATP receptors, is functionally characterized as a P2U purinoceptor. Specifically, the ATP-induced intracellular Ca2+ mobilization in the transfected cells was inhibited by suramin, 2-methylthio-ATP had a modest stimulatory effect on intracellular Ca2+ mobilization, and beta, gamma-methylene ATP and alpha, beta-methylene ATP had no effect. The cloned receptor exhibited the agonist potency and efficacy profile of ATP approximately equal to uridine triphosphate > ADP approximately equal to uridine diphosphate > GTP. Such characteristics very closely mimic the pharmacologically defined P2U purinoceptor of primary rat gonadotropes and mixed sheep pituitary cells, and Southern blot analysis further indicates that there is only one allele in rat genome for the P2U purinoceptor. These findings suggest that the P2U purinoceptor is the predominant G protein-linked ATP receptor found in the pituitary.
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PMID:Molecular cloning and functional characterization of a rat pituitary G protein-coupled adenosine triphosphate (ATP) receptor. 861 22

Observation that the G protein-coupled P2U receptor (P2Y2 receptor) is activated by UTP as well as ATP provided the first indication that a class of uridine nucleotide-responsive receptors might exist. This hypothesis was confirmed by our identification of a uridine nucleotide-specific receptor on C6-2B rat glioma cells and by the recent cloning of two uridine nucleotide-responsive receptors, the P2Y6 receptor [J. Biol. Chem. 270:26152-26158 (1995)] and the P2Y4 receptor [J. Biol. Chem. 270:30849-30852 (1995) and J. Biol. Chem. 270:30845-30848 (1995)]. The relative nucleotide selectivities of these uridine nucleotide-activated receptors have not been established. Therefore, we cloned and expressed the P2Y6 and P2Y4 receptors in 1321N1 human astrocytoma cells and compared their relative selectivities for UDP, UTP, and other uridine and adenine nucleotides with that of the P2Y2 receptor expressed in the same cells. These comparisons were made by measuring inositol phosphate accumulation under conditions in which the initial purity and stability of agonists were rigidly ensured and quantitatively assessed. The data indicate that the P2Y2 receptor is activated with similar potencies by ATP and UTP but not by ADP or UDP; the P2Y6 receptor is activated most potently by UDP but weakly by UTP, ATP, and ADP; and the P2Y4 receptor is activated most potently by UTP, less potently by ATP, and not at all by nucleotide diphosphates. Furthermore, the P2Y6 receptor, which displays a uridine nucleotide selectivity essentially identical to that of the uridine nucleotide-specific receptor in C6-2B cells, was shown to be natively expressed in C6-2B cells and to account for the uridine nucleotide responses originally identified in these cells. These results define the uridine nucleotide selectivity of three phospholipase C-linked receptors: a receptor that is selectively activated by UDP (P2Y6 receptor), selectively activated by UTP (P2Y4 receptor), and activated by UTP and ATP but not by diphosphate nucleotides (P2Y2 receptor).
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PMID:Uridine nucleotide selectivity of three phospholipase C-activating P2 receptors: identification of a UDP-selective, a UTP-selective, and an ATP- and UTP-specific receptor. 870 Jan 27

1. The coding sequence of the P2Y1-purinoceptor was cloned from a human genomic library. 2. The open reading frame encodes a protein of 373 amino acids that is 83% identical to the previously cloned chick and turkey P2Y1-purinoceptor and is > or = 95% homologous to the recently cloned rat, mouse, and bovine P2Y1-purinoceptors. 3. The human P2Y1-purinoceptor was stably expressed in 1321N1 human astrocytoma cells using a retroviral vector. Although the P2Y1-purinoceptor agonist, 2MeSATP, had no effect on inositol phosphate accumulation in cells infected with the P2Y1-purinoceptor virus. No effect of 2MeSATP on cyclic AMP accumulation was observed in P2Y1-receptor-expressing 1321N1 cells. 4. The pharmacological selectively of 18 purinoceptor agonists was established for the expressed human P2Y1-purinoceptor. 2MeSATp was more potent than ATP but less potent than 2MeSADP. ADP also was more potent than ATP. A similar maximal effect was observed with most agonists tested. However, alpha, beta-MeATP had no effect and 3'-NH2-3'-deoxyATP and A2P4 were partial agonists. The order of potency of agonists for activation of the turkey P2Y1-purinoceptor, also stably expressed in 1321N1 cells, was identical to that observed for the human P2Y1-purinoceptor. 5. C6 glioma cells express a P2Y-purinoceptor that inhibits adenylyl cyclase but does not activate phospholipase C. Expression of the human P2Y1-purinoceptor in C6 cells conferred 2MeSATP-stimulated inositol lipid hydrolysis to these cells. The phospholipase C-activating human P2Y1-purinoceptor could be delineated from the endogenous P2Y-purinoceptor of C6 glioma cells by use of the P2-purinoceptor antagonist, PPADS, which blocks the P2Y1-purinoceptor but does not block the endogenous P2Y-purinoceptor of C6 cells. P2-purinoceptor agonists also exhibited differential selectivities for activation of these two P2Y-purinoceptors.
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PMID:Second messenger cascade specificity and pharmacological selectivity of the human P2Y1-purinoceptor. 873 91

Valproic acid (VPA) is an anticonvulsant drug with demonstrated efficacy in the treatment of mania. In the present study, we found that chronic exposure of rat C6 glioma cells to VPA induces a coordinate decrease in multiple components of the beta-adrenergic receptor- (beta-AR) coupled cyclic adenosine 3'-5'monophosphate (cAMP) generating system. Chronic VPA decreased the number of beta-ARs in a time- and concentration-dependent manner; the decrease of beta-ARs was largely beta 1-AR selective and affected beta-ARs in both the high- and low-affinity states. Chronic VPA also significantly attenuated receptor- and postreceptor-stimulated cAMP production, [3H]forskolin binding sites, immunolabeling of G alpha s 45, and cholera toxin catalyzed ADP-ribosylation of G alpha s 52 and 45. Although the precise underlying mechanisms remain to be elucidated, such profound long-term changes in the functioning of this key signaling pathway may help explain the antimanic effects of chronic VPA treatment and are worthy of further study.
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PMID:Effects of valproic acid on beta-adrenergic receptors, G-proteins, and adenylyl cyclase in rat C6 glioma cells. 887 10

Bipolar disorder is associated with increased levels and function of the G-protein, Gs alpha which may be normalized by treatment with mood stabilizing medications (i.e. lithium salts and the anticonvulsants, valproic acid and carbamazepine). In C6 glioma cells, endogenous ADP ribosylation was markedly increased by lithium chloride (+83%, P < 0.005), decreased by valproic acid (-48%, P = 0.07) whereas carbamazepine had no effect. Since ADP ribosylation of Gs alpha has been shown to increase turnover of this protein these results suggest a possible mechanism of action for lithium chloride. These results also suggest that lithium salts and the anticonvulsant mood stabilizers may have distinct mechanisms of action.
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PMID:Mood stabilizers have differential effects on endogenous ADP ribosylation in C6 glioma cells. 887 42


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