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)

Effects of pertussis toxin or cholera toxin on carbachol-stimulated inositol-1-phosphate ([3H]IP1) accumulation were studied using the human neuroblastoma cell line (SH-SY5Y). The maximal carbachol-stimulated [3H]IP1 accumulation in the SH-SY5Y cells was decreased from 51.4 fmol/10(6) cells to 42.4 fmol/10(6) cells (P less than 0.05) and 22.1 fmol/10(6) cells (P less than 0.01) in the absence and presence of 1 microgram/ml and 10 micrograms/ml pertussis toxin, respectively while the EC50 values did not change. Cholera toxin (1 mg/ml) did not alter carbachol-stimulated [3H]IP1 accumulation in these cells. These results suggest that a pertussis toxin sensitive G-protein may be involved in muscarinic receptor-phosphatidylinositol hydrolysis coupling in SH-SY5Y cells.
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PMID:Muscarinic receptor-mediated hydrolysis of phosphatidylinositols in human neuroblastoma (SH-SY5Y) cells is sensitive to pertussis toxin. 339 Jul 5

The nicotine and muscarinic responses of differentiated mouse neuroblastoma cells from the clonal line N1E 115 to applied cholinergic agents were recorded using single channel and whole cell patch clamp techniques. An inward macroscopic current induced by acetylcholine (ACh) at the resting potential was blocked by curare; cell-attached recordings revealed a single channel conductance of 18 pS and a lifetime of 36 ms at 30 degrees C, with 200 nM ACh. The zero current potential was close to 0 mV. The kinetics of these nicotinic currents were described by multiexponential functions for both the open and closed time distributions. An outward single channel current, present at resting and slightly depolarized potentials, was also observed and has been tentatively described as being dependent on muscarinic receptor activation, as it was usually blocked by atropine. Under our conditions of whole cell clamp, no macroscopic outward current sensitive to ACh was observed.
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PMID:Acetylcholine-activated currents in mouse neuroblastoma cells. 380

(Isobutylthio)adenosine (SIBA, 1) and its derivatives have been shown to produce a variety of biological effects on the basis of the hypothesis that such agents act directly as inhibitors of transmethylation reactions, as inhibitors of S-adenosylhomocysteine hydrolase, or as inhibitors of polyamine biosynthesis. We report here the ability of selected analogues of SIBA to inhibit the binding of the muscarinic antagonist quinuclidinyl benzilate (QNB) to cultured N4TG1 neuroblastoma cells and to antagonize the acetylcholine-induced contraction of guinea pig ileum. The most potent inhibitors were 5'-deoxy-5'-(isobutylthio)-1-deazaadenosine (1-deaza-SIBA, 5) and 5'-deoxy-5'-(isobutylthio)-3-deazaadenosine (3-deaza SIBA, 3), while the parent nucleoside SIBA and the carbocyclic derivative 5'-(isobutylthio)-3-deazaaristeromycin were less active. The same agents had no effect on the nicotinic receptors of NG108-15 neuroblastoma X glioma hybrid cells. The acyclic derivative 9-[[2-(isobutylthio)ethoxy]methyl]adenine, 3-deazaadenosine, 5'-(isobutylthio)tubercidin, and 5'-(isobutylamino)adenosine were inactive at the 1-mM level. These results suggest that SIBA and 3-deaza-SIBA may have profound effect on membrane-mediated phenomenon, including inhibition of muscarinic receptor binding.
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PMID:Inhibition of muscarinic receptor binding and acetylcholine-induced contraction of guinea pig ileum by analogues of 5'-(isobutylthio)adenosine. 387 62

Inhibitory coupling of receptors to adenylate cyclase previously has been shown to be relatively sensitive to inactivation by alkylation with N-ethylmaleimide (NEM). Modification of the inhibitory guanine nucleotide regulatory protein, Ni, has been proposed to be responsible for this effect. The effects of NEM on GTP-sensitive binding of carbachol to muscarinic cholinergic receptors has been compared in a cell line (1321N1 human astrocytoma cells) in which these receptors stimulate phosphoinositide breakdown and in a cell line (NG108-15 neuroblastoma X glioma cells) in which activation of these receptors results in inhibition of adenylate cyclase. Pretreatment of membrane preparations from 1321N1 cells with NEM resulted in a concentration-dependent decrease in the extent of pertussis toxin-catalysed [32P]ADP-ribosylation of a 41 000 Da protein previously proposed to be the alpha subunit of Ni. Under conditions where 32P-labelling of Ni in 1321N1 membranes was reduced by NEM by 90%, no effect was observed on the extent of guanine nucleotide-sensitive high-affinity binding of carbachol to muscarinic cholinergic receptors. In contrast, treatment of NG108-15 membranes with NEM under the same conditions resulted in complete loss of high-affinity guanine nucleotide sensitive binding of carbachol. These results illustrate another difference between the muscarinic receptor population of these two cell lines, and support the previous proposal that muscarinic receptors of 1321N1 cells couple to a guanine nucleotide regulatory protein that is not Ni.
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PMID:Further evidence that muscarinic cholinergic receptors of 1321N1 astrocytoma cells couple to a guanine nucleotide regulatory protein that is not Ni. 392 72

N1E-115 neuroblastoma cells were grown in the absence or presence of atropine (1 microM) for 9 days. After 9 days membranes were prepared from control and atropine-treated cells. They were stored frozen until some markers of muscarinic cholinergic function were measured. Atropine treatment increased the number of muscarinic receptors from 100 +/- 10 fmol/mg protein to 145 +/- 20 fmol/mg protein, decreased the cholinesterase activity from 3.5 +/- 2.0 U/mg protein to 1.0 +/- 0.5 U/mg protein and increased the choline acetyltransferase activity from 0.25 +/- 0.13 pmol [3H]acetylcholine synthesized/min X mg protein to 1.80 +/- 0.59 pmol [3H]acetylcholine synthesized/min X mg protein. It is suggested that all these changes are correlates of muscarinic receptor supersensitivity.
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PMID:Long time treatment of N1E-115 neuroblastoma cells with atropine induces changes in markers of muscarinic cholinergic function. 396 Mar 99

It has been proposed elsewhere [Meeker, R.B. & Harden, T. K. (1982) Mol. Pharmacol. 22, 310-319] that muscarinic cholinergic receptor-mediated attenuation of cAMP accumulation occurs through activation of phosphodiesterase in 1321N1 human astrocytoma cells. Pertussis toxin, which ADP-ribosylates the guanine nucleotide regulatory protein involved in receptor-mediated inhibition of adenylate cyclase (Ni), has been utilized to further differentiate between the mechanism of cholinergic regulation of cAMP metabolism in 1321N1 cells and the mechanism involving inhibition of adenylate cyclase in other tissues. Muscarinic receptor-mediated regulation of cAMP accumulation in NG108-15 neuroblastoma-glioma cells occurs through inhibition of adenylate cyclase. Pretreatment of these cells with pertussis toxin completely blocked the capacity of carbachol to attenuate cAMP accumulation. In contrast, concentrations of pertussis toxin two to three orders of magnitude higher than those effective in NG108-15 cells had no effect on muscarinic receptor-mediated attentuation of cAMP accumulation in 1321N1 cells. In addition, no effect of pertussis toxin was observed either on the control rate or the carbachol-stimulated rate of cAMP degradation measured directly in intact 1321N1 cells. A 41,000 Mr protein previously proposed to be the alpha subunit of Ni was labeled during incubation of a plasma membrane fraction from 1321N1 cells with [32P]NAD and pertussis toxin. Pertussis toxin is apparently active in 1321N1 cells, since this protein substrate was not labeled in plasma membrane preparations from cells previously incubated with toxin. Functional activity of Ni was demonstrated by the observation that guanosine 5'-[gamma-thio]triphosphate- and GTP-mediated inhibition of forskolin-stimulated adenylate cyclase activity occurred in cell-free preparations from 1321N1 cells. The inhibitory activity of these guanine nucleotides was lost in membrane preparations from pertussis toxin-treated cells. The data suggest that adenylate cyclase is not involved in cholinergic action in 1321N1 cells and, furthermore, Ni is not involved in muscarinic receptor-mediated activation of phosphodiesterase in these cells. Thus, pertussis toxin can be used to differentiate between two mechanisms of cholinergic regulation of cAMP metabolism.
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PMID:Pertussis toxin differentiates between two mechanisms of attenuation of cyclic AMP accumulation by muscarinic cholinergic receptors. 609 Nov 3

The attenuation of cyclic AMP accumulation occurs by different mechanisms in 1321N1 astrocytoma cells and NG108-15 neuroblastoma X glioma cells. In 1321N1 cells, cholinergic agonists reduce cyclic AMP accumulation through a Ca2+-dependent activation of phosphodiesterase; in NG108-15 cells, muscarinic receptor-mediated effects on cyclic AMP metabolism occur through inhibition of adenylate cyclase. The goal of the current study was to determine whether different pharmacological specificities were expressed by the muscarinic receptor populations of these two cell lines. The affinity of muscarinic receptors for [3H]quinuclidinyl benzilate (6 pM), [3H]N-methylscopolamine (50 pM), and atropine (80 pM) was similar in membrane preparations from each cell line. The affinity of the antagonist, pirenzepine, which has been proposed to be a selective ligand for a muscarinic receptor subtype, was 3-fold higher in competition binding assays carried out with membranes of 1321N1 cells, than with NG108-15 cells. The Hill coefficients of pirenzepine competition curves were not significantly different from unity in both cell lines. This selectivity of pirenzepine was also apparent in studies of the competitive inhibition of carbachol-induced attenuation of cyclic AMP accumulation in intact cells. Differences in the relative affinities of agonists were observed in competition binding analyses carried out with membranes in the presence of GTP and absence of Mg2+. The Ki values of bethanechol and carbachol were 5- and 12-fold lower for receptors of NG108-15 cells than those of 1321N1 cells and the Ki of methacholine was 3.5-fold lower for 1321N1 cells than for NG108-15 cells. The affinities of oxotremorine and arecoline were similar between the two cell lines. These differences in agonist affinities between the two cell lines were much smaller in analyses of muscarinic receptor-mediated effects on cyclic AMP metabolism in intact cells. Taken together, these data suggest that muscarinic receptors of differing pharmacological specificities regulate cyclic AMP metabolism by different mechanisms in 1321N1 and NG108-15 cells.
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PMID:Muscarinic cholinergic receptors of two cell lines that regulate cyclic AMP metabolism by different molecular mechanisms. 609 92

Mouse neuroblastoma clone N1E-115 has muscarinic acetylcholine receptors that mediate cyclic GMP synthesis. This receptor-mediated response is not significantly higher than background until the cells have been maintained in the stationary phase for at least 1 week. The basis of the influence of time in culture on the cyclic GMP response was investigated. The relative amount of cyclic GMP synthesized by intact cells was measured by radioactively labeling the GTP pool with [3H]guanine, incubating cells with agonists, and then chromatographically isolating [3H]cyclic GMP. Carbamylcholine-, ionophore X-537A-, and sodium azide-induced cyclic GMP formation increased with time in culture to a maximum of 13-, 9-, and 2.5-fold above basal, respectively. There was no change in the number or the apparent affinity of the muscarinic receptors as measured by [3H]quinuclidinyl benzylate ([3H]QNB) binding. In addition, there was no change in the apparent affinity of the receptors for agonist as measured by the ability of carbamylcholine to displace the specific binding of [3H]QNB. Guanylate cyclase activity per milligram protein and per cell increased six- and sevenfold, respectively, from day 0 to day 22. However, this increase in guanylate cyclase appeared to precede the marked increase in sensitivity of the cells to agonists. These data suggest that, in addition to guanylate cyclase and muscarinic receptors, there is another factor which is responsible for the development of this muscarinic receptor-mediated response.
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PMID:Regulation of muscarinic receptor-mediated cyclic GMP synthesis by cultured mouse neuroblastoma cells. 610 3

Intracellular cyclic GMP content responds to the stimulation of muscarinic receptor in a variety of tissues. Several aspects of the cellular mechanism involved in the synthesis of cyclic GMP were investigated. 1. In cultured bovine chromaffin cells, acetylcholine as well as muscarine stimulated the 32Pi incorporation into phosphatidic acid, induced Ca2+ mobilization across the cells, and, in parallel, elevated intracellular cyclic GMP content. Phosphatidic acid added to culture medium also stimulated the efflux and influx of Ca2+ and the synthesis of cyclic GMP in bovine chromaffin cells and in neuroblastoma cells in the same fashion as acetylcholine. 2. We have succeeded in a purification of an endogenous activator for guanylate cyclase from rat brain and identified it as L-arginine. L-Arginine, but not D-arginine, activated soluble guanylate cyclase 10- to 20-fold at a low concentration (1-2 X 10(-5) M). The activation of the enzyme by L-arginine seemed to require Ca2+. Calcium accumulated in cells in response to muscarinic stimulation would activate guanylate cyclase in collaboration with L-arginine. 3. Using a specific monoclonal antibody, we demonstrated the cellular and subcellular localizations of guanylate cyclase in rat brain. An intense reaction was observed in the brain regions which were rich in muscarinic receptor. Electron microscopic examination revealed that guanylate cyclase was concentrated in the postsynaptic perikaryon and dendrites of some type of neurons indicating its involvement in neural transmission.
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PMID:Cellular mechanism involved in the synthesis of cyclic GMP in nervous tissues. 613 49

Cells of the murine neuroblastoma clone N1E-115 possess muscarinic receptors that influence the intracellular level of cyclic nucleotides. The stimulation of [3H]cyclic GMP levels occurs only with intact cells and has an EC50 near the "low-affinity" agonist equilibrium dissociation constant (KL) determined by radioligand binding assays. The inhibition of prostaglandin E1-stimulated [3H]cyclic AMP formation has an EC50 close to the value for the "high-affinity" agonist equilibrium dissociation constant (KH). During sequential subculturing in medium supplemented with newborn bovine serum, the inhibition of [3H]cyclic AMP was maintained, but the [3H]cyclic GMP response declined dramatically, and after 7 subculturings it was essentially absent. The time course for [3H]cyclic GMP formation in a late subculture with an 88% loss of the response was identical with the time course in early subcultures. A normal [3H]cyclic GMP response to bradykinin and histamine was demonstrated to be present in cells that had lost the [3H]cyclic GMP response to carbachol. The EC50 and KD values for the two muscarinic responses and binding sites increased 3- to 4-fold after several subculturings. A 90% loss of low-affinity binding sites was closely correlated with a similar loss of the [3H]cyclic GMP response. High-affinity binding sites did not decline significantly in concentration until the 11th subculture, where the total number of muscarinic sites was only 6% of the earliest subculture. In all subcultures, however, the ability of the muscarinic receptor to decrease [3H]cyclic AMP levels was maintained. These data, which show that the subculturing of N1E-115 cells in medium supplemented with newborn calf serum results in a selective loss of one muscarinic function, strongly support the hypothesis that these cells contain two separate muscarinic receptor-effector systems. One receptor subtype or conformation has a low affinity for the agonist and mediates cyclic GMP formation. The other receptor subtype or conformation has a higher affinity for the agonist and mediates an inhibition of prostaglandin E1-stimulated cyclic AMP formation.
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PMID:Muscarinic responses and binding in a murine neuroblastoma clone (N1E-115). Selective loss with subculturing of the low-affinity agonist site mediating cyclic GMP formation. 614 90

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