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)

The ability of muscarinic receptors, present in either the cell surface or sequestered compartments of intact human SK-N-SH neuroblastoma cells, to stimulate phosphoinositide hydrolysis has been examined. When cells were first exposed to carbachol for 1 h at 37 degrees C, approximately 50% of the cell surface receptors became sequestered, and this was accompanied by a comparable reduction in the subsequent ability of muscarinic agonists to stimulate phosphoinositide turnover, as monitored by the release of labeled inositol phosphates at 10 degrees C. At this temperature, muscarinic receptor cycling between the two cell compartments is prevented. Upon warming the carbachol-pretreated cells to 37 degrees C, receptor cycling is reinitiated and stimulated phosphoinositide turnover is fully restored within 5-8 min. When measured at 10 degrees C, the reduction of stimulated phosphoinositide turnover observed following carbachol pretreatment was similar in magnitude for both hydrophilic (carbachol, oxotremorine-M) and lipophilic (arecoline, oxotremorine-2, and L-670,548) agonists. The loss of response for both groups of agonists could be prevented if the incubation temperature was maintained at 37 degrees C, rather than at 10 degrees C. At the latter temperature carbachol pretreatment of SK-N-SH cells reduced the maximum release of inositol phosphates elicited by either carbachol or L-670,548 but not the agonist concentrations required for half-maximal stimulation. Radioligand binding studies, carried out at 10 degrees C, indicate that following receptor sequestration, significantly higher concentrations of carbachol were required to occupy the available muscarinic receptor sites. In contrast the lipophilic full agonist L-670,548 recognized receptors present in control and carbachol-pretreated cells with comparable affinities. Analysis of the inositol lipids present after carbachol pretreatment indicate that only a minimal depletion of the substrates necessary for phospholipase C activation had occurred. The results indicate that the agonist-induced sequestration of muscarinic receptors from the cell surface results in a loss of stimulated phosphoinositide hydrolysis when measured under conditions in which the return of the sequestered receptors to the cell surface is prevented. Thus, only those receptors present at the cell surface are linked to phospholipase C activation.
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PMID:Preferential coupling of cell surface muscarinic receptors to phosphoinositide hydrolysis in human neuroblastoma cells. 184 33

The actions of tumor promoters on the coupling of muscarinic receptors to the hydrolysis of inositol lipids and the generation of Ca2+ signals were examined in the human neuroblastoma SH-SY5Y cell line. Pretreatment of SH-SY5Y cells with 50 nM 12-O-tetradecanoylphorbol 13-acetate (TPA) for 5 days resulted in neuronal differentiation, a 28% decrease in both N-[3H]methylscopolamine and [3H]-scopolamine binding, and a significantly larger reduction (48%) in agonist-stimulated 3H-inositol phosphate generation. Whereas mezerein could mimic the effects produced by TPA, the biologically inactive 4 alpha-phorbol 12,13-didecanoate was without effect on both antagonist binding and agonist-stimulated phosphoinositide (PPI) turnover. A decline (approximately 50%) in the agonist-mediated rise in cytoplasmic Ca2+ and a substantial loss of protein kinase C activity also were observed following pretreatment with TPA or mezerein. The ability of fluoride, an agent capable of direct activation of guanine nucleotide binding proteins, to stimulate 3H-inositol phosphate release was significantly reduced in SH-SY5Y cells treated with these agents. Furthermore, pretreatment of SH-SY5Y neuroblastoma cells with TPA or mezerein impaired 3H-inositol phosphate formation induced by the addition of either guanosine 5'-O-(3-thiotriphosphate) or carbamylcholine to digitonin-permeabilized cells, but not that elicited by the addition of 2 mM CaCl2. Although cells cultured in the presence of serum-free media also exhibited neuronal differentiation, no significant alteration in either muscarinic receptor number or agonist-stimulated PPI hydrolysis was observed. The results suggest that TPA and mezerein decrease agonist-stimulated PPI hydrolysis and Ca2+ signaling in SH-SY5Y cells not only by a reduction in muscarinic receptor number but also through an inhibition of guanine nucleotide-stimulated PPI turnover.
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PMID:Reduction of muscarinic receptor density and of guanine nucleotide-stimulated phosphoinositide hydrolysis in human SH-SY5Y neuroblastoma cells following long-term treatment with 12-O-tetradecanoylphorbol 13-acetate or mezerein. 215 16

Preincubation with receptor agonists or phorbol esters desensitized muscarinic-receptor-mediated [3H]cyclic GMP responses in mouse neuroblastoma N1E-115 cells. However, desensitization mediated by phorbol esters was heterologous, whereas that effected by receptor agonist was specific towards the muscarinic receptors. In addition, there was no loss of cell surface muscarinic receptors, as measured by the binding of the hydrophilic ligand [3H]N-methylscopolamine, when cells were treated with phorbol esters, but receptor-agonist-induced desensitization was accompanied by a decrease in cell surface receptor density. We examined the role of protein kinase C (PKC) in the desensitization of muscarinic receptors by employing a kinase inhibitor and by down-regulation of PKC by long-term incubation of cells with phorbol esters. Whereas these manoeuvres had marked effects on phorbol-ester-induced desensitization of muscarinic responses, they did not block agonist-induced down-regulation and desensitization of muscarinic receptors. In addition, when phosphoinositide hydrolysis was suppressed, the muscarinic agonist was still capable of mediating receptor sequestration and desensitization. These results suggest that the mechanisms for regulating muscarinic receptor sensitivity could be both PKC-dependent and PKC-independent, being mediated by phorbol esters and receptor agonists respectively.
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PMID:Protein kinase C is involved in desensitization of muscarinic receptors induced by phorbol esters but not by receptor agonists. 215 8

The contribution of polyphosphoinositides to muscarinic receptor-stimulated phosphoinositide turnover has been evaluated for intact and digitonin-permeabilized human SK-N-SH neuroblastoma cells. Addition of carbamoylcholine to [3H]inositol-prelabeled intact cells resulted in a rapid (5-10 sec) loss of phosphatidylinositol-4,5-bisphosphate and the concomitant appearance of radiolabeled inositol-1,4,5-trisphosphate, inositol-1,3,4-trisphosphate, and inositol tetrakisphosphate. In the presence of the agonist, production of these inositol polyphosphates remained enhanced for up to 45 min. Inositol mono- and bisphosphates steadily accumulated in response to receptor activation and in the presence of Li+ comprised greater than 95% of agonist-stimulated inositol phosphate formation at incubation times greater than 5 min. The major inositol bisphosphate isomer was the 1,4-species. Of the two inositol monophosphates produced, radioactivity recovered in inositol-4-monophosphate increased continuously, whereas that in the inositol-1-monophosphate/inositol-3-monophosphate fraction was delayed in appearance but thereafter progressively accumulated. Omission of Ca2+ reduced carbamoylcholine-stimulated inositol phosphate release by greater than 50% but did not significantly influence the ratio of inositol monophosphates formed. Upon addition of atropine to agonist-pretreated cells, radioactivity was lost from inositol phosphates in the following order: inositol-1,4,5-trisphosphate greater than inositol-1,3,4-trisphosphate greater than inositol-1,4-bisphosphate = inositol-4-monophosphate greater than inositol-1-monophosphate/inositol-3-monophosphate. Although carbamoylcholine addition to digitonin-permeabilized cells also resulted in a sustained release of inositol monophosphates, relatively more inositol-4-monophosphate was produced in these preparations. Omission of ATP from permeabilized cell incubations inhibited carbamoylcholine-stimulated 'inositol phosphate formation by greater than 70%. Whole homogenates of SK-N-SH cells metabolized added inositol-1,4,5-trisphosphate and inositol-1,4-bisphosphate exclusively to inositol-4-monophosphate, whereas inositol-1,3,4,5-tetrakisphosphate was degraded to inositol-1- or 3-monophosphate. Measurement of inositol trisphosphate 3'-kinase and 5'-phosphatase activities revealed that, following permeabilization, 3'-kinase activity was diminished, whereas that of 5'-phosphatase was enhanced. The results indicate that occupancy of muscarinic cholinergic receptors in SK-N-SH cells elicits a continuous Ca2(+)-dependent breakdown of the polyphosphoinositides rather than of phosphatidylinositol.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Polyphosphoinositides are the major source of inositol phosphates in carbamoylcholine-stimulated SK-N-SH neuroblastoma cells. 216 31

Acute desensitization of M1 muscarinic receptor-mediated responses (cyclic GMP formation and inositol phosphate release) was studied in murine neuroblastoma cells (N1E-115 clone). After a 45-min incubation at 37 degrees of N1E-115 cells either in monolayer or in suspension, with the muscarinic agonist carbachol (1 mM), the receptor-mediated cyclic GMP response to carbachol was nearly completely lost. This loss was associated with greater than 80% loss of carbachol-mediated inositol phosphate release. The protein kinase C activator phorbol 12-myristate 13-acetate (PMA) inhibited both responses with similar potencies. Carbachol or PMA reduced by 30-40% the number of muscarinic receptor sites for antagonist and agonist on intact cells (determined in binding assays using [3H]N-methylscopolamine) only for cells in monolayer and not for those in suspension. PMA but not carbachol pretreatment of cells in monolayer or in suspension caused a translocation of [3H]phorbol 12,13-dibutyrate binding and protein kinase C activity. In addition, desensitization to carbachol occurred in cells largely depleted of protein kinase C by chronic exposure to PMA. Thus, agonist-mediated down-regulation is not needed for muscarinic M1 receptor desensitization, which may be a result of the activation of a receptor-activated kinase different from protein kinase C.
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PMID:Desensitization of muscarinic M1 receptors of murine neuroblastoma cells (clone N1E-115) without receptor down-regulation and protein kinase C activity. 216 77

We have carried out an extensive pharmacological characterization of muscarinic binding sites in rabbit lung and chicken heart in parallel with M1, M2, and M3 sites, [3H]Pirenzepine, a selective antagonist at M1 receptors, bound saturably and reversibly to membranes from chicken heart and rabbit lung. These binding sites were not M1 receptors, however, because the cardioselective antagonist himbacine had 10-fold higher affinity at these sites than at [3H]pirenzepine sites in rat and rabbit cortex (true M1 sites). We measured the inhibitory potency of 28 antagonists at [3H]N-methylscopolamine-labeled sites in chicken heart, rabbit lung, rat heart (M2 sites), and rat submandibular gland (M3 sites) and at M1 sites in rat cortex. The sites in rabbit lung were different from M1, M2, and M3 sites, because they had moderate to high affinity for M1-selective compounds (pirenzepine and telenzepine), M2-selective compounds (himbacine and methoctramine), and M3-selective compounds (hexahydrosiladifenidol and 4-diphenylacetoxy-N-methylpiperidine methiodide). The sites in chicken heart resembled most those in rabbit lung, with similar high affinity for secoverine, but they were not the same because tropicamide, diphenylacetoxybutynyl dimethylamine, and [3H]-N-methylscopolamine were more potent in rabbit lung. In a further series of experiments, we compared the affinity of six of the most discriminating antagonists in membranes from rabbit lung and NG108-15 cells, a neuroblastoma-glioma cell line reported to express the muscarinic m4 receptor gene. The antagonists had very similar affinities in the two tissues, the largest discrepancy being that pirenzepine was twice as potent in rabbit lung as in NG108-15 cells. Northern blots using probes designed to discriminate between five species of muscarinic receptor RNA detected only m4 mRNA in rabbit lung. We conclude that rabbit lung contains a muscarinic M4 binding site with a quite distinctive pharmacology and that chicken heart contains a receptor with similarities to the M4 sites. This is the first report to characterize native M4 binding sites in a nonneuronal mammalian tissue.
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PMID:Characterization of muscarinic M4 binding sites in rabbit lung, chicken heart, and NG108-15 cells. 225 Jun 62

The goals of the present study were: (1) to investigate the binding properties of (R)- and (S)-procyclidine and two achiral derivatives of muscarinic M1, M2 and M4 receptor subtypes and (2) to identify the interactions which allow these receptors to discriminate between the two stereoisomers. (R)-Procyclidine showed a higher affinity for human neuroblastoma NB-OK 1 muscarinic M1 and rat striatum muscarinic M4 receptors, as compared to rat cardiac M2 receptors. (S)-Procyclidine had a 130-fold lower affinity than (R)-procyclidine for M1 and M4 receptors, and a 40-fold lower affinity for M2 receptors. Pyrrinol, the achiral diphenyl derivative with the cyclohexyl group of (S)-procyclidine replaced by a phenyl group, has an eight-fold lower affinity for M1 and M4 receptors, as compared to (R)-procyclidine, and a three-fold lower affinity for M2 receptors. Hexahydro-procyclidine, the corresponding achiral dicyclohexyl compound, had a 10- to 20-fold lower affinity than (R)-procyclidine for the three receptors. The increase in binding free energy, which is observed when the phenyl and cyclohexyl groups of procyclidine are separately replaced by cyclohexyl and phenyl groups, respectively, was additive in the case of M1, M2 and M4 receptors. This indicates that the muscarinic receptor stereoselectivity was based on the coexistence of two binding sites, one preferring a phenyl rather than cyclohexyl group and the second preferring a cyclohexyl rather than a phenyl group. In addition, there were also binding sites for the hydroxy moiety and the protonated amino group of the ligands. The greater affinity and stereoselectivity of M1 and M4 muscarinic receptors for (R)-procyclidine reflected the better fit of the cyclohexyl group of (R)-procyclidine to the subsite of M1 and M4 as compared to M2 receptors.
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PMID:Stereoselectivity of procyclidine binding to muscarinic receptor subtypes M1, M2 and M4. 225

The phorbol ester, 12-O-tetradecanoylphorbol 13-acetate (TPA), which causes differentiation of SH-SY5Y neuroblastoma cells, reduces carbachol binding and carbachol-stimulated Ca2+ mobilization in these cells. The decrease in responsiveness to carbachol is due partially to a reduction in the amount of Ca2+ released by the cells and partially to a decrease in the sensitivity of the cells to carbachol. These effects probably can be attributed to a reduction in muscarinic receptor number and a decrease in receptor affinity, respectively. Forskolin, an alkaloid known to cause an increase in cellular cyclic AMP, enhances Ca2+ influx into the cells without affecting the cytosolic free Ca2+ concentration. The alkaloid causes an apparent restoration of the reduced Ca2+ release, caused by TPA, but does not affect the sensitivity of the cells to carbachol. Forskolin increases the decay of carbachol-induced increase in cytosolic Ca2+. The effects of TPA appear to be linked directly to receptor function, whereas those of forskolin are due to the effect of cyclic AMP on cellular Ca2+ metabolism.
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PMID:12-O-tetradecanoylphorbol 13-acetate and forskolin modify muscarinic receptor-linked Ca2+ mobilization in SH-SY5Y neuroblastoma cells through different mechanisms. 229 48

The role of muscarinic receptor-mediated polyphosphoinositide hydrolysis and subsequent calcium signals in altering the subcellular localization of calmodulin (CaM) was examined in SK-N-SH human neuroblastoma cells. Upon incubation of the cells with the full agonist carbachol, a 4.5- to 5-fold increase in CaM in the cytosol was observed, from 126 ng of CaM to 629 ng of CaM. There was an accompanying 68% decrease in membrane-bound CaM. The increase in the cytosol was maximal by 15 min, as was a corresponding decrease in membrane-associated CaM. The redistribution of CaM was maintained for at least 2 hr, before returning toward control levels by 4 hr. The EC50 values for carbachol in eliciting the translocation were 3.7 microM for the increase in cytosol and 1.3 microM for the decrease in membranes. The maximal changes in CaM concentration in both membranes and cytosol occurred with 10 microM carbachol. Incubation of the SK-N-SH cells with the partial muscarinic agonists bethanechol and arecoline resulted in 27 and 26% decreases in membrane-associated CaM, respectively, and 28 and 35% increases in cytosolic CaM, respectively. Thus, the partial agonists were less efficacious than carbachol in eliciting changes in CaM localization. Atropine completely blocked the carbachol-stimulated translocation, whereas the nicotinic agonist 1,1-dimethyl 4-phenylpiperazinium had no effect on the localization of CaM. Activation of receptors coupled to adenylate cyclase did not affect distribution of CaM. CaM content in membranes and cytosol of cells incubated with prostaglandin E1 or the alpha 2-adrenergic agonist UK 14,304 was not different from control values. The ionophore ionomycin (10 microM) and the phorbol ester 12-O-tetradecanoylphorbol 13-acetate (TPA) (50 nM) were both able to elicit changes in CaM distribution. Ionomycin caused a 64% increase in CaM in the cytosol, with no significant change in membrane CaM. TPA elicited a decrease in membrane-associated CaM, with a corresponding increase in CaM in the cytosol. When TPA and ionomycin were incubated together, the translocation was equal in magnitude to that observed with carbachol alone. The protein kinase C inhibitor H-7 blocked the TPA-stimulated response and partially blocked the carbachol-stimulated response. The CaM-binding protein neuromodulin, which demonstrates a decreased affinity for CaM in the presence of Ca2+ and when phosphorylated by protein kinase C, was present in both membranes and cytosol of SK-N-SH cells.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Muscarinic receptor-mediated translocation of calmodulin in SK-N-SH human neuroblastoma cells. 235 3

To compare the proportions of four muscarinic receptors in different rat brain regions, we used competition curves with four selective antagonists, at 1-[N-methyl-3H]scopolamine methyl chloride [( 3H]NMS) binding equilibrium and after allowing [3H]NMS dissociation for 35 min. Himbacine and methoctramine were shown to discriminate two muscarinic receptor subtypes having a high affinity for 4-diphenylacetoxy-N-methylpiperidine methiodide and hexahydrosiladifenidol, intermediate affinity for pirenzepine, and low affinity for AF-DX 116. One M4 subtype had a high affinity for himbacine and methoctramine; it was found predominantly in homogenates from rat striatum (46% of total [3H]NMS receptors) and in lower proportion in cortex (33% of [3H]NMS receptors) and hippocampus (16% of [3H]NMS receptors). Its binding properties were identical to those of muscarinic receptors in the neuroblastoma x glioma NG 108-15 hybrid, suggesting that it was encoded by m4 mRNA. The M3 subtype (typically found in rat pancreas, a tissue expressing the m3 mRNA) had a low affinity for himbacine and methoctramine and represented about 10% of all [3H]NMS receptors in rat brain cortex, hippocampus, striatum, and cerebellum. M1 and M2 receptors were identified in rat brain by their high affinity for pirenzepine and AF-DX 116, respectively.
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PMID:Binding of selective antagonists to four muscarinic receptors (M1 to M4) in rat forebrain. 238 34

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