UMLS:C0027819 - FACTA Search

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Query: UMLS:C0027819 (neuroblastoma)
27,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

NG108-15 neuroblastoma x glioma hybrid cells and S49 lymphoma cells exhibit an enhancement in adenylyl cyclase activity after chronic treatment with receptor agonists that acutely inhibit the enzyme. Using agonists that activate five distinct inhibitory receptors in NG108-15 cells, we have found that there is a correlation between the extent of acute inhibition of prostaglandin E1 (PGE1)-stimulated cAMP accumulation and efficacy for induction of enhanced PGE1 stimulation of cAMP accumulation after chronic treatment and withdrawal. Chronic treatment with dideoxyadenosine, which acutely inhibits adenylyl cyclase activity by a mechanism independent or cell surface receptors or pertussis toxin-sensitive G proteins, did not induce enhanced PGE1 stimulation of cAMP accumulation in NG108-15 cells or forskolin stimulation of cAMP accumulation in S49 cells. While control basal cAMP concentrations were acutely decreased by carbachol in NG108-15 cells and by somatostatin in S49 cells, when the cAMP concentrations were maintained above the control basal values with a phosphodiesterase inhibitor, chronic treatment with these inhibitory drugs nonetheless resulted in enhanced cAMP responses in both NG108-15 and S49 cells. These results provide evidence that the initial decrement in cAMP concentrations caused by inhibitory drug is not the requisite signal for inducing the subsequent sensitization of adenylyl cyclase in NG108-15 and S49 cells but that activation of a pertussis toxin-sensitive G protein is involved in the development of this important adaptation.
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PMID:Adaptive increase in adenylyl cyclase activity in NG108-15 and S49 cells induced by chronic treatment with inhibitory drugs is not due to a decrease in cyclic AMP concentrations. 132 99

In SK-N-SH human neuroblastoma cells, the muscarinic agonist carbachol promotes polyphosphoinositide (PPI) hydrolysis via M3 receptors and increases cyclic AMP levels through an unidentified mechanism. Activation of PPI hydrolysis by carbachol elicits a robust translocation of CaM from membranes into cytosol which was previously shown to be mimicked by the addition of the calcium ionophore ionomycin and the phorbol ester TPA28. The effect of agonist-stimulated second messenger production on CaM localization was determined by activating receptors that increase and decrease adenylyl cyclase activity on SK-N-SH cells. VIP (10 microM), prostaglandin E1 (30 microM) and forskolin (10 microM) all increased adenylyl cyclase activity 8- to 10-fold above the activity with 1 microM GTP. Carbachol (100 microM) did not stimulate adenylyl cyclase activity. The alpha 2-adrenergic agonist UK 14,304 (0.1 microM) and the delta and mu opioid DPDPE (10 microM) and DAMGO (10 microM) inhibited forskolin-stimulated cyclic AMP formation by 27-32%. CaM did not stimulate adenylyl cyclase activity. Incubation of cells with vasoactive intestinal polypeptide (VIP), dibutyryl cyclic AMP and forskolin, resulted in 30% decrease in membrane CaM and an increase in cytosolic CaM of 40-50%. The CaM translocation with the combination of an agent that elevates cyclic AMP levels and a low dose of carbachol was not different from that observed with either agent alone. UK 14,304, DPDPE and DAMGO potentiated carbachol-stimulated increases in cytosolic CaM. Upon the addition of carbachol, a 5-fold increase in intracellular calcium concentration measured with fura-2 fluorescence was observed. VIP and UK 14,304 elevated intracellular calcium concentrations 2 to 3 fold, while forskolin (10 microM) had no effect.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Cyclic AMP accumulation alters calmodulin localization in SK-N-SH human neuroblastoma cells. 134 31

The clonal human neuroblastoma cell line SK-N-SH-SY5Y was previously shown to express mu-opioid and alpha 2-adrenoceptors which are both negatively coupled to adenylyl cyclase. Because of the potential use of alpha 2-agonists in the treatment of narcotic dependence, we tested the interactions among he alpha 2-agonists, clonidine and norepinephrine, and morphine on AC in SH-SY5Y cells. Pretreatment with retinoic acid resulting in partial neuronal differentiation greatly enhanced the cells' sensitivity towards adenylyl cyclase stimulation by prostaglandin E1, and its inhibition by morphine and alpha 2-agonists. Norepinephrine (EC50 = 69 nM) maximally inhibited prostaglandin E1-stimulated cAMP accumulation (by approximately 83%), and the alpha 2-agonist yohimbine reversed these effects. Clonidine (EC50 = 32 nM) was a partial agonist, with 50 to 60% maximal inhibition. The combined effects of morphine (maximum approximately 70% inhibition) and norepinephrine exceeded the effect of either agent alone, yielding more than 90% inhibition of prostaglandin E1-stimulated cAMP accumulation. As previously reported for morphine, only a partial tolerance was observed for adenylyl cyclase inhibition by norepinephrine. Further, no cross-tolerance was observed between clonidine and morphine. The combined results indicate that mu-opioid receptors and an alpha 2-adrenoceptor subtype are colocalized on the same cells in SH-SY5Y culture, which hence serves as a model to study opioid-alpha 2-adrenergic interactions.
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PMID:Interaction among mu-opioid receptors and alpha 2-adrenoceptors on SH-SY5Y human neuroblastoma cells. 135 61

Bordetella pertussis produces a calmodulin-stimulated adenylyl cyclase that invades animal cells and raises intracellular cAMP levels [Confer, D. L., & Eaton, J. W. (1982) Science 217, 948-950; Shattuck, R. L., & Storm, D. R. (1985) Biochemistry 24, 6323-6328]. The mechanism for invasion of animal cells by this enzyme has not been defined, but there is considerable evidence that it does not enter by receptor-mediated endocytosis [Gordon, V. M., Leppla, S. H., & Hewlett, E. L. (1988) Infect. Immun. 56, 1066-1069; Donovan, M. G., & Storm, D. R. (1990) J. Cell. Physiol. 145, 444-449]. In this study, the importance of high-affinity calmodulin (CaM) binding for entry of the enzyme into neuroblastoma cells was evaluated using a mutant enzyme that has significantly lower affinity for calmodulin than the wild-type enzyme. Oligonucleotide-directed site-specific mutagenesis was used to create a point mutant at a critical tryptophan residue (Trp-242) within the proposed CaM binding domain of the B. pertussis adenylyl cyclase. Substitution of Trp-242 with Glu lowered the apparent affinity of the enzyme for calmodulin by 250-fold; however, the maximal enzyme activity in the presence of saturating calmodulin was equivalent to the wild-type enzyme. The Glu-242 mutant adenylyl cyclase was returned to B. pertussis by homologous recombination, and the enzyme produced by this strain was examined for invasion of neuroblastoma cells. Although the mutant enzyme stimulated the production of intracellular cAMP in neuroblastoma cells, the rate of cAMP accumulation was at least 10-fold lower than that caused by the wild-type enzyme.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:High-affinity calmodulin binding is required for the rapid entry of Bordetella pertussis adenylyl cyclase into neuroblastoma cells. 139 Jun 75

The human neuroblastoma clonal cell line SH-SY5Y expresses both mu- and delta-opioid receptors (ratio approximately 4.5:1). Differentiation with retinoic acid (RA) was previously shown to enhance the inhibition of adenylyl cyclase (AC) by mu-opioid agonists. We tested here the inhibition of cyclic AMP (cAMP) accumulation by morphine under a variety of conditions: after stimulation with prostaglandin E1 (PGE1), forskolin, and vasoactive intestinal peptide (VIP), both in the presence and in the absence of the phosphodiesterase inhibitor 3-isobutyl-1-methylxanthine (IBMX). Morphine inhibition of the forskolin cAMP response (approximately 65%) was largely unaffected by the presence of IBMX. In contrast, deletion of IBMX enhanced morphine's inhibition of the PGE1 and VIP cAMP response from approximately 50 to approximately 80%. The use of highly mu- and delta-selective agents confirmed previous results that inhibition of cAMP accumulation by opioids is mostly mu, and not delta, receptor mediated in SH-SY5Y cells, regardless of the presence or absence of IBMX. Because of the large morphine inhibition and the high cAMP levels even in the absence of IBMX, PGE1-stimulated, RA-differentiated SH-SY5Y cells were subsequently used to study narcotic analgesic tolerance and dependence in vitro. Upon pretreatment with morphine over greater than or equal to 12 h, a fourfold shift of the PGE1-morphine dose-response curve was observed, whether or not IBMX was added. However, mu-opioid receptor number and affinity to the mu-selective [D-Ala2, N-Me-Phe4, Gly5-ol]enkephalin were largely unaffected, and Na(+)- and guanyl nucleotide-induced shifts of morphine-[3H]naloxone competition curves were unchanged.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Regulation of cyclic AMP by the mu-opioid receptor in human neuroblastoma SH-SY5Y cells. 169 94

An invasive form of the CaM-sensitive adenylyl cyclase from Bordetella pertussis can be isolated from bacterial culture supernatants. This isolation is achieved through the use of QAE-Sephadex anion-exchange chromatography. It has been demonstrated that the addition of exogenous Ca2+ to the anion-exchange gradient buffers will affect elution from the column and will thereby affect the isolation of invasive adenylyl cyclase. This is probably due to a Ca2(+)-dependent interaction of the catalytic subunit with another component in the culture supernatant. Two peaks of adenylyl cyclase activity are obtained. The Pk1 adenylyl cyclase preparation is able to cause significant increases in intracellular cAMP levels in animal cells. This increase occurs rapidly and in a dose-dependent manner in both N1E-115 mouse neuroblastoma cells and human erythrocytes. The Pk2 adenylyl cyclase has catalytic activity but is not cell invasive. This material can serve, therefore, as a control to ensure that the cAMP which is measured is, indeed, intracellular. A second control is to add exogenous CaM to the Pk1 adenylyl cyclase preparation. The 45-kDa catalytic subunit-CaM complex is not cell invasive. Although the mechanism for membrane translocation of the adenylyl cyclase is unknown, there is evidence that the adenylyl cyclase enters animal cells by a mechanism distinct from receptor-mediated endocytosis. Calmodulin-sensitive adenylyl cyclase activity can be removed from preparations of the adenylyl cyclase that have been subjected to SDS-polyacrylamide gel electrophoresis. This property of the enzyme has enabled purification of the catalytic subunit to apparent homogeneity. The purified catalytic subunit from culture supernatants has a predicted molecular weight of 45,000. This polypeptide interacts directly with Ca2+ and this interaction may be important for its invasion into animal cells. Finally, the technique for purifying the catalytic subunit by SDS-polyacrylamide gel electrophoresis may prove useful in studying the interaction of the adenylyl cyclase with other components produced by the bacteria, as well as the interaction of the enzyme with eukaryotic target cells.
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PMID:Purification and assay of cell-invasive form of calmodulin-sensitive adenylyl cyclase from Bordetella pertussis. 185 26

NS20Y neuroblastoma cells expressing a homogeneous population of D1-dopamine receptors were used in the present study as a model system to investigate the mechanisms of agonist-induced stimulation and desensitization of D1 receptor-coupled adenylyl cyclase activity. Membrane prepared from NS20Y cells showed a pharmacologically specific, dose-dependent increase in cAMP production in response to various dopaminergic agonists. Dopamine exhibited an EC50 of 5 microM, and at 100 microM a maximal stimulation of 3-4-fold over basal enzyme activity was observed, which could be selectively antagonized by the active stereoisomers of SCH-23390 and butaclamol. Preincubation of NS20Y cells with dopamine induced homologous desensitization of D1 receptor-coupled adenylyl cyclase activity, decreasing dopamine- but not prostaglandin-, adenosine-, or forskolin-stimulated cAMP production. Desensitization did not affect the EC50 for dopamine but resulted in an 85-90% reduction in the maximal response. Dopamine-induced desensitization of adenylyl cyclase activity was found to be both dose and time dependent. As early as 5 min after preincubation with dopamine, cAMP production was decreased by 45-50%, with maximal desensitization occurring by 90 min. Preincubation of NS20Y cells with dopamine also induced a decrease in D1 receptor ligand binding activity, as assessed with the radiolabeled antagonist [3H]SCH-23390. This decrease in binding activity occurred more slowly than the loss of enzyme activity, not achieving maximal levels until after 3 hr. [3H]SCH-23390 saturation binding isotherms in control and maximally desensitized NS20Y cell membranes revealed no change in affinity (KD); however, a 65-70% decrease in receptor number (Bmax) was observed. Because the maximal and temporal decrease in D1 receptors does not correlated with the decrease in dopamine-stimulated enzyme activity, the desensitization may involve a functional uncoupling of the D1 receptor in addition to receptor down-regulation. This is further suggested by a loss in high affinity agonist binding observed in agonist/[3H]SCH-23390 competition experiments after desensitization. Removal of dopamine after maximal desensitization/down-regulation results in recovery to control values by 24 hr. This recovery is mostly, but not completely, blocked by protein synthesis inhibitors, suggesting an involvement of receptor degradation in the desensitization process.
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PMID:Agonist-induced desensitization of D1-dopamine receptors linked to adenylyl cyclase activity in cultured NS20Y neuroblastoma cells. 197 40

In order to clone the D1 dopamine receptor linked to adenylyl cyclase activation, the polymerase chain reaction was used with highly degenerate primers to selectively amplify a cDNA sequence from NS20Y neuroblastoma cell mRNA. This amplification produced a cDNA fragment exhibiting considerable sequence homology to guanine nucleotide-binding (G)-protein-coupled receptors that have been cloned previously. To characterize this cDNA further, a full-length clone was isolated from a rat striatal library by using the cDNA fragment as a probe. Sequence analysis of this cDNA clone indicated that it is indeed a member of the G-protein-coupled receptor family and exhibits greatest homology with the previously cloned catecholamine receptors. Northern blot analysis of various neural tissues revealed a transcript of approximately 4 kb that was predominantly located in the striatum with lesser amounts in the cortex and retina. In contrast, no mRNA was detected in the cerebellum, hippocampus, olfactory bulb, mesencephalon, or pituitary. In situ hybridization analysis also revealed a high abundance of mRNA in the striatum as well as in the olfactory tubercle. To establish the identity of this cDNA, we performed transient expression experiments in COS-7 cells. [3H]SCH-23390, a D1-selective radioligand, exhibited specific, saturable binding only in cells that were transfected with this cDNA. Competition binding analysis with a variety of dopaminergic ligands demonstrated a D1 dopaminergic pharmacology. In addition, dopamine as well as other D1-selective agonists stimulated cAMP accumulation in transfected COS-7 cells. We conclude that we have cloned a cDNA encoding the D1 dopamine receptor linked to the activation of adenylyl cyclase activity.
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PMID:Molecular cloning and expression of a D1 dopamine receptor linked to adenylyl cyclase activation. 216 56

5-Hydroxytryptamine (serotonin, 5-HT) stimulates basal adenylyl cyclase activity in membranes from guinea pig or rat hippocampi, but 5-HT inhibits forskolin-stimulated adenylyl cyclase activity in these same membranes. The opposing effects of 5-HT on adenylyl cyclase activity indicate that distinct 5-HT receptors, positively and negatively coupled to adenylyl cyclase, are present in these membranes. Stimulation of adenylyl cyclase activity is mediated by two distinct 5-HT receptors. The receptor with lower affinity for 5-HT, designated as RL, is apparently homologous with a 5-HT receptor present in rat collicular membranes, but it is not homologous with the stimulatory receptor characterized in neuroblastoma hybrid cell (NCB-20) membranes. The receptor with higher affinity for 5-HT is homologous with the 5-HT1A binding site. The magnitude of stimulation by 5-HT1A receptors is variable with respect to stimulation by RL and is sometimes completely absent. Inhibition of forskolin-stimulated adenylyl cyclase activity, in membranes from either rat or guinea pig hippocampus or rat cortex, is a functional correlate of the 5-HT1A binding site. This inhibitory response was used to determine the pharmacological characteristics of drugs that reportedly have high affinity for 5-HT1A binding sites, such as 1-[2-(4-aminophenyl)ethyl]-4-(3-trifluoromethylphenyl)piperazine (PAPP) and (-)pindolol. PAPP inhibited adenylyl cyclase activity in guinea pig hippocampal membranes with an EC50 value of 27 +/- 3 nM. (-)Pindolol was a partial agonist in inhibiting adenylyl cyclase activity in guinea pig and rat hippocampal membranes. Because of the low intrinsic activity of (-)pindolol, it was tested as an antagonist of the inhibition produced by 5-HT1A receptor agonists in rat hippocampal membranes. The Kb of (-)pindolol was 40 nM as measured by a Schild plot. (-)Propranolol was a simple competitive antagonist at the rat hippocampal receptor with a Kb value of 550 nM. In summary, guinea pig and rat hippocampal membranes possess two distinct populations of 5-HT receptors, a 5-HT receptor that mediates inhibition of adenylyl cyclase activity and is pharmacologically homologous with the 5-HT1A binding site, and a stimulatory receptor that appears to be homologous with the 5-HT receptor first characterized in infant rat collicular membranes.
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PMID:Stimulation and inhibition of adenylyl cyclase by distinct 5-hydroxytryptamine receptors. 222 10

In neuronal cells, opioid peptides and opiates inhibit neurotransmitter release, which is a calcium-dependent process. They also inhibit adenylyl cyclase, presumably via the membrane signal-transducing component, Gi, a guanine nucleotide-binding protein (G-protein). No causal relationship between these two events has yet been demonstrated. Besides Gi, membranes of neuronal tissues contain large amounts of Go, a G-protein with unknown function. Both G-proteins are heterotrimers consisting of alpha-, beta- and gamma-subunits; the alpha-subunits can be ADP-ribosylated by an exotoxin from Bordetella pertussis (PT), which modification inhibits receptor-mediated activation of the G-protein. It was recently shown that noradrenaline, dopamine and gamma-aminobutyric acid (GABA) inhibit the voltage-dependent calcium channels in dorsal root and sympathetic ganglia; this inhibition is mimicked by intracellular application of guanine nucleotides and blocked by PT, suggesting the involvement of a G-protein. Here we report an inhibitory effect of the opioid D-Ala2, D-Leu5-enkephalin (DADLE) on the calcium current (ICa) in neuroblastoma X glioma hybrid cells (N X G cells). Pretreatment with PT almost completely abolishes the DADLE effect. The effect is restored by intracellular application of Gi and Go. As the alpha-subunit of Go (with or without beta-gamma complex) is 10 times more potent than Gi, we propose that Go is involved in the functional coupling of opiate receptors to neuronal voltage-dependent calcium channels.
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PMID:The GTP-binding protein, Go, regulates neuronal calcium channels. 243 90

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