Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0027819 (neuroblastoma)
 27,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ionic currents induced by 5-hydroxytryptamine (5-HT) in cultured neuroblastoma N18 cells were studied using whole-cell voltage clamp. The response was blocked by 1-10 nM 5-HT3 receptor-specific antagonists MDL 7222 or ICS 205-930, but not by 1 microM 5-HT1/5-HT2 receptor antagonist spiperone or 5-HT2 receptor-specific antagonist ketanserin. These 5-HT3 receptors seem to be ligand-gated channels because the response (a) did not require internal ATP or GTP, (b) persisted with long internal dialysis of CsF (90 mM), A1F4- (100 microM), or GTP gamma S (100 microM), and (c) with ionophoretic delivery of 5-HT developed with a delay of less than 10 ms and rose to a peak in 34-130 ms. Fluctuation analysis yielded an apparent single-channel conductance of 593 fS. The relative permeabilities of the channel for a variety of ions were determined from reversal potentials. The channel was only weakly selective among small cations, with permeability ratios PX/PNa of 1.22, 1.10, 1.01, 1.00, and 0.99 for Cs+, K+, Li+, Na+, and Rb+, and 1.12, 0.79, and 0.73 for Ca2+, Ba2+, and Mg2+ (when studied in mixtures of 20 mM divalent ions and 120 mM N-methyl-D-glucamine). Apparent permeability ratios for the divalent ions decreased as the concentration of divalent ions was increased. Small monovalent organic cations were highly permeant. Large organic cations such as Tris and glucosamine were measurably permeant with permeability ratios of 0.20 and 0.08, and N-methyl-D-glucamine was almost impermeant. Small anions, NO3-, Cl-, and F-, were slightly permeant with permeability ratios of 0.08, 0.04, and 0.03. The results indicate that the open 5-HT3 receptor channel has an effective minimum circular pore size of 7.6 A and that ionic interactions in the channel may involve negative charges near the pore mouth.
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PMID:Ion permeation through 5-hydroxytryptamine-gated channels in neuroblastoma N18 cells. 228 32

Serotonin (5-hydroxytryptamine; 5-HT) and its analogs activate adenylate cyclase in membrane particles from neuroblastoma NCB.20 cells. Low concentrations of GTP (EC50 = 60 nM) were required for activation by serotonin. Guanosine 5'-O-(2-thiodiphosphate) inhibited serotonin-activated cyclase in these cells. The nonhydrolyzable GTP analogs guanosine 5'-O-(3-thiotriphosphate) (EC50 = 3 nM) and guanylyl-imidodiphosphate (EC50 = 100 nM) substituted for GTP in potentiating serotonin activation. Pretreatment of the cells with cholera toxin potentiated enzyme activation by serotonin, whereas pertussis toxin was found to have little effect, indicating the involvement of the alpha subunit of a stimulatory GTP-binding protein in enzyme activation. Homologous desensitization of the serotonin-stimulated adenylate cyclase was demonstrated in membranes prepared from intact cells pretreated with serotonin. Cell membrane particles that were desensitized to serotonin were still responsive to beta-adrenergic agonists and to prostaglandin E1. Evidence is presented indicating that serotonin stimulation of adenylate cyclase is mediated by receptors that are distinct from other positively coupled receptors (beta-adrenergic, histamine, and prostacyclin). Equilibrium binding analysis with [3H]serotonin, [3H]lysergic acid diethylamide, and [3H]dihydroergotamine suggested that the site density was below the level of detection of binding of these radioligands. The pharmacological characteristics of the serotonin-activated cyclases were analyzed in order to compare these serotonin receptors with the family of different receptor subtypes. Correlation analysis between the potencies of different agonists and antagonists at the cyclase in these cells and their reported relative potencies for different serotonin receptor subtypes showed no correlation with the 5-HT1A, 5HT1B, 5HT1D, 5-HT2, and 5-HT3 receptors. On the other hand, the analysis showed that the NCB.20 serotonin receptors are similar but not identical to the rat and pig brain 5-HT1C receptors and to the serotonin receptors coupled to adenylate cyclase in the trematodes Schistosoma mansoni and Fasciola hepatica. The results point to a novel serotonin receptor which has a low density in these cells.
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PMID:Serotonin receptor-mediated activation of adenylate cyclase in the neuroblastoma NCB.20: a novel 5-hydroxytryptamine receptor. 233 46

The rates of phosphodiesterase-promoted hydrolysis of cGMP and cAMP have been measured in intact neuroblastoma N1E-115 cells by determining rates of 18O incorporation from 18O-water into the alpha-phosphoryls of guanine and adenine nucleotides. The basal rate of guanine nucleotide alpha-phosphoryl labeling ranged from 180 to 244 pmol X mg protein-1 X min-1. Sodium nitroprusside (SNP) caused a sustained 3.4-fold increase in this 18O-labeling rate in conjunction with 28- and 50-fold increases in cellular cGMP concentration at 3 and 6 min, respectively. This 18O-labeling rate (795 pmol X mg protein-1 X min-1) corresponded with the sum of the low (1.7 microM) and high (34 microM) Km phosphodiesterase activities assayable in cell lysates which exhibited a combined maximum velocity of 808 pmol X mg protein-1 X min-1 to which the high Km species contributed 84%. This information and the characteristics of the profile of 18O-labeled molecular species indicate that cGMP metabolism was restricted to a very discrete cellular compartment(s) of approximately 12% of the cell volume. Carbachol (1 mM) produced a transient increase (6-fold) in cellular cGMP concentration and a transient increase (90%) in the rate of 18O labeling of alpha-GTP during the first minute of treatment which translates into 30 additional cellular pools of cGMP hydrolyzed in this period. IBMX (1 mM) produced a relatively rapid increase in cellular cGMP (3- to 5-fold) and cAMP (2-fold) concentrations and a delayed inhibition of 18O labeling of guanine and adenine nucleotide alpha-phosphoryls without further elevation of cyclic nucleotide levels. These results indicate that besides inhibiting cyclic nucleotide hydrolysis, IBMX also imparts a time-dependent inhibitory influence on the generation of cyclic nucleotides. The data obtained show that measurement of 18O labeling of guanine and adenine nucleotide alpha-phosphoryls combined with measurements of cyclic nucleotide steady state levels provides a means to assess the rates of cyclic nucleotide synthesis and hydrolysis within intact cells and to identify the site(s) of action of agents that alter cellular cyclic nucleotide metabolism.
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PMID:The dynamics of cGMP metabolism in neuroblastoma N1E-115 cells determined by 18O labeling of guanine nucleotide alpha-phosphoryls. 243 34

The levels of the alpha-subunits of two GTP-binding proteins, Go and Gi2, were determined in neural and nonneural cloned cells by immunoassays. Go alpha was detected in all neural cells and some of nonneural cells, but not in HL-60 leukemic cells and PYS-2 teratocarcinoma-derived cells. The level of Go alpha was highest in the PC12 pheochromocytoma cells. Gi2 alpha was present in all types of cells tested, and its level was highest in the HL-60 cells and relatively high in glioma cells. Treatment of PC12 cells and neuroblastoma x glioma hybrid NG108-15 cells with nerve growth factor and forskolin, respectively, caused the extension of neuronal-like processes and increase in the level of Go alpha by 60-80%, but small changes in the levels of Gi2 alpha.
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PMID:The GTP-binding proteins, Go and Gi2, of neural cloned cells and their changes during differentiation. 250 85

The effect of GTP on Ca2+ uptake and release was studied in a microsomal fraction isolated from neuroblastoma x glioma hybrid NG108-15 cells. GTP did not alter the ATP-dependent initial uptake of Ca2+ but markedly enhanced the efflux of Ca2+ from microsomes. GTP-dependent Ca2+ release requires the presence of millimolar concentration of Mg2+. The effect of GTP was not mimicked by other nucleotides and was competitively blocked by the thiophosphate analogue of GTP, GTP gamma S but not by the non-hydrolyzable nucleotide GMP-PNP. Addition of an inhibiting concentration of GTP gamma S after completion of GTP-induced calcium release did not result in a re-uptake of Ca2+, showing the irreversibility of the releasing effect of GTP. Our data are consistent with the hypothesis of Ca2+-dependent GTP-induced opening of a channel responsible for vectorial transport of Ca2+ ions from one intracellular compartment to another. A model is proposed suggesting that the GTP-binding protein is a GTP-specific diacylglycerol kinase.
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PMID:Evidence for a GTP-dependent increase in membrane permeability for calcium in NG108-15 microsomes. 251 40

The relationship between muscarinic receptor-mediated inositol lipid hydrolysis and the generation of Ca2+ signals has been examined in human SK-N-SH neuroblastoma cells. The resting cytoplasmic calcium concentration [( Ca2+]i) as determined by fura-2 fluorescence measurements was 59 +/- 2 nM. Upon the addition of oxotremorine-M, there was a 4-fold increase in [Ca2+]i (293 +/- 18 nM), with half-maximal stimulation obtained at an agonist concentration of 8 microM, a value similar to that previously observed for the enhancement of phosphoinositide hydrolysis. Addition of partial muscarinic agonists for phosphoinositide turnover (bethanechol, oxo-2, and arecoline) elicited correspondingly smaller increases in [Ca2+]i than did oxotremorine-M. Inclusion of EGTA lowered the basal [Ca2+]i within 2 min and markedly reduced (greater than 60%) the magnitude of the agonist-induced rise in [Ca2+]i. Addition of muscarinic agonists to SK-N-SH cells that had been prelabeled with [3H]inositol led to the rapid (5-15 sec) release of inositol mono-, bis-, and triphosphates. When assayed under conditions similar to those employed for the fluorescence measurements, EGTA also inhibited both the basal and oxotremorine-M-stimulated release of inositol phosphates by 45-61%. Conversely, ionomycin both elevated [Ca2+]i and stimulated the release of inositol phosphates. The addition of Ca2+ (10 nM-2 microM) to digitonin-permeabilized cells directly stimulated the release of labeled inositol mono-, bis-, and trisphosphates by 3-4-fold with a half-maximal effect (EC50) observed at 145 nM free Ca2+ (Ca2+f). A further (6-fold) calcium-dependent increase in inositol phosphate release was obtained by inclusion of either guanosine-5-O-(3-thio)-trisphosphate (GTP gamma S) or oxotremorine-M. In the combined presence of agonist and GTP gamma S, a synergistic release of all three inositol phosphates occurred, with half-maximal stimulation observed at 35-40 nM Ca2+f, a value similar to the [Ca2+]i in quiescent cells. These results indicate (i) that the magnitude of the initial rise in [Ca2+]i is directly related to the production of phosphoinositide-derived second messenger molecules and (ii) that the phospholipase C-mediated breakdown of inositol lipids in SK-N-SH cells is particularly sensitive to regulation by physiologically relevant Ca2+ concentrations. It is concluded that, in SK-N-SH cells, either an elevation above or reduction below basal [Ca2+]i can modulate the extent of hydrolysis of inositol lipids and the subsequent generation of calcium signals.
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PMID:Muscarinic receptor regulation of cytoplasmic Ca2+ concentrations in human SK-N-SH neuroblastoma cells: Ca2+ requirements for phospholipase C activation. 253 57

125I-Bolton Hunter-cholecystokinin octapeptide (BH-CCK8) and (-)-[3H]L-364718 membrane binding assays were used to identify and characterize cholecystokinin (CCK) receptors in CHP212 human neuroblastoma cells. The ligand binding properties of CCK receptors in these cells are similar to those found in pancreas (CCK-A sites) and differ from the predominant type of CCK binding site found in brain (CCK-B sites). The specific binding of 125I-BH-CCK8 but not (-)-[3H]L-364718 was reduced by the metabolically stable GTP analog guanosine 5'-(beta-delta-imido)trisphosphate. A substantial difference in the Bmax for the radiolabeled agonist (125I-BH-CCK8) and antagonist [(-)-[3H]L-364718] was noted. These observations are consistent with CCK receptors existing in guanine nucleotide-binding protein-coupled and -uncoupled states. Similar to its action in pancreatic acinar cells, CCK8(S) stimulated the accumulation of [3H]inositol phosphates in cells prelabeled with [3H]myo-inositol (EC50 = 3.2 +/- 0.4 nM; maximum response = 4.5 +/- 0.4 x basal). The intrinsic activity of CCK analogues in stimulating phosphoinositide hydrolysis was substantially less than their reported intrinsic activity in stimulating phosphoinositide hydrolysis in pancreatic acinar cells. The CHP212 neuroblastoma cell may serve as a useful model for the recently reported CCK-A binding site found in the central nervous system.
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PMID:Type-A cholecystokinin receptors in CHP212 neuroblastoma cells: evidence for association with G protein and activation of phosphoinositide hydrolysis. 253 54

The binding of the nonselective muscarinic antagonist, [3H]N-methylscopolamine (NMS) to a mouse neuroblastoma cell line (Neuro-2A) and its coupling to the inhibition of adenylate cyclase were characterized. Specific [3H]NMS binding to membrane preparations was rapid, saturable, and of high affinity. Saturation experiments revealed a single class of binding sites for the radioligand. Competition experiments with the muscarinic drugs pirenzepine, AF DX 116, dicyclomine and atropine revealed that the muscarinic receptors present on these cells are predominantly of a single class, subtype B (M2). In addition, agonist binding demonstrated existence of a GTP-sensitive high affinity binding state of the receptors. Coupling of these muscarinic receptors to the adenylate cyclase system was investigated using the muscarinic agonist carbachol which was able to inhibit the prostaglandin (PGE1)-stimulated activation of adenylate cyclase. The agonist carbachol did not stimulate the formation of IP3 above basal levels, which indicated that the receptors are not coupled to phosphatidylinositol metabolism. In conclusion, we show that possessing predominantly one subtype of muscarinic receptor, the Neuro-2A cells provide a useful model for the investigation of the heterogeneity of muscarinic receptors and the relationship of subtype to the coupling of different effectors.
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PMID:Characterization of muscarinic receptors: type M2 (subtype B) on neuro-2A neuroblastoma cells. 254 37

According to classical models of drug-receptor interactions, competitive antagonists share with agonists the ability to bind to a common site on the receptor molecule. However, they are different from agonists, as they cannot trigger the "stimulus" that leads to biological responses--i.e., they lack intrinsic activity. For those receptors whose signals are transduced to effector systems by GTP-binding regulatory proteins (G proteins), a mechanistic equivalent of such a stimulus is an increased ability of agonist-bound receptor to accelerate nucleotide exchange and thus GTPase activity on the G-protein molecule. Here we show that for a member of this family of receptors (delta opioid receptors in membranes of NG108-15 neuroblastoma-glioma cells), two types of competitive antagonists can be distinguished. One type has no intrinsic activity, since it neither stimulates nor inhibits the GTPase activity of G proteins and its apparent affinity for the receptor is not altered by pertussis toxin-mediated uncoupling of receptor and G protein. The second type, however, can inhibit GTPase and thus exhibits negative intrinsic activity; its affinity for receptors is increased following uncoupling from G proteins. The existence of antagonists with negative intrinsic activity may be a general feature of several classes of neurotransmitters or hormone receptors and calls for a reevaluation of biological effects produced by competitive antagonists.
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PMID:Antagonists with negative intrinsic activity at delta opioid receptors coupled to GTP-binding proteins. 255 39

Mouse wild-type neuroblastoma cells (NB cells) were stepwise selected for 10,000-fold increased resistance to mycophenolic acid (NB-Myco cells), an inhibitor of IMP dehydrogenase (IMP:NAD+ oxidoreductase, EC 1.1.1.205). IMP dehydrogenase activity was increased 25-fold, from 3.1 to 75 nmol/min.mg of protein; and a 56.7-kDa peptide was increased in abundance 200-500-fold in NB-Myco as compared to NB cells. Purification and sequence analysis confirmed that the abundant protein was IMP dehydrogenase. The stepwise selection, increased activity and protein abundance, and unstable phenotype are indirect evidence for a process of gene amplification. Kinetic findings consistent with an Ordered Bi Bi mechanism were indicative of IMP dehydrogenase having undergone mutation. The Michaelis constants were unchanged for IMP (14 and 13 microM) and increased 4-fold for NAD from 25 to 94 microM for NB and NB-Myco cells, respectively. The Ki for mycophenolic acid was increased 2400-fold from 1.4 nM to 3.4 microM for the enzyme from NB versus NB-Myco cells, and the Ki for XMP was increased 4-fold from 78 to 336 microM. Mycophenolic acid exhibited uncompetitive inhibition with IMP, consistent with the formation of a dead end E-XMP-inhibitor complex. The cellular GTP concentration was increased 2-fold in resistant cells and, upon removal of mycophenolic acid, further increased to 4.5-fold that of NB cells.
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PMID:Increased activity, amount, and altered kinetic properties of IMP dehydrogenase from mycophenolic acid-resistant neuroblastoma cells. 257 89


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