Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

The cellular mechanism of action of the cannabimimetic drugs is examined using cultured cells. In membranes from N18TG2 neuroblastoma cells and the neuroblastoma X glioma hybrid cells, NG108-15, the psychoactive cannabinoid drugs and their nantradol analogs could inhibit adenylate cyclase activity. This response was not observed in either the soluble adenylate cyclase from rat sperm or membrane-bound adenylate cyclases from C6 glioma or S49 lymphoma cells. This cellular selectivity provides further evidence for the existence of specific receptors for the cannabimimetic compounds. Receptor-mediated inhibition of adenylate cyclase requires the presence of a guanine nucleotide-binding protein complex, Gi. Gi can be functionally inactivated as a result of an ADP-ribosylation modification catalyzed by pertussis toxin. The present study demonstrates that pertussis toxin treatment of cells abolished the cannabimimetic response in intact cells and in membranes derived therefrom. The action of pertussis toxin required NAD+ as substrate for in vitro modification of neuroblastoma membranes. Furthermore, pertussis toxin was able to catalyze the labeling of a neuroblastoma membrane protein in vitro using [32P] NAD+ under conditions similar to those by which attenuation of the cannabimimetic inhibition of adenylate cyclase could be demonstrated. This evidence demonstrates the requirement for a functional Gi in the action of cannabimimetic drugs.
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PMID:Involvement of Gi in the inhibition of adenylate cyclase by cannabimimetic drugs. 286 5

In neuroblastoma x glioma hybrid NG108-15 cells, bradykinin (BK) receptor stimulation leads to phosphoinositide hydrolysis, formation of inositol phosphates and mobilization of intracellular calcium. Treatment of the cells with 12-O-tetradecanoyl phorbol 13-acetate (TPA) suppressed the spike phase of increases in intracellular calcium concentration. In radioligand binding studies, TPA treatment did not interfere with [3H]BK specific binding to intact cells or to cell membranes. The ability of guanyl-5'-yl-imidodiphosphate to promote the conversion of the high affinity sites of the BK receptors into a low affinity sites was unaffected by TPA. TPA treatment showed the dose-dependent, noncompetitive inhibition of BK-stimulated formation of inositol trisphosphate. In the membrane preparations from TPA-treated cells, guanosine 5'-(3-O-thio)triphosphate-stimulated inositol trisphosphate formation was inhibited by 50%. These data indicate that TPA exerts its inhibitory action on BK responses at the sites of guanine nucleotide-binding protein or phospholipase C or both.
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PMID:Phorbol ester inhibits bradykinin-stimulated inositol trisphosphate formation and calcium mobilization in neuroblastoma x glioma hybrid NG108-15 cells. 287 10

Chronic treatment of neuroblastoma X glioma NG108-15 hybrid cells with 10 nM [D-Ala2,D-Leu5] enkephalin (DADLE) results in a reduction of cell-surface opiate delta receptors. Whether opiate receptor internalization requires the activation of the guanine nucleotide-binding protein (Ni) is unclear. Hence, activation of Ni was attenuated by treating hybrid cells with 100 ng/ml pertussis toxin (PT) for 3 h, which resulted in a decrease in DADLE's ability to inhibit adenylate cyclase activity. Despite this prior treatment with PT, chronic exposure of these cells to 10 nM DADLE resulted in a time-dependent decrease in both [3H]diprenorphine and [3H]DADLE binding. This reduction in 3H-ligand binding in cells previously treated with PT represented internalization of the receptors because translocation was observed of bound [3H]DADLE from plasma membrane fractions to the lysosomal fractions in the Percoll gradients. Thus, opiate receptors internalize without activation of Ni. The internalization of opiate receptors was not accompanied by Ni. By measuring the amount of the 41-kDa alpha subunit being labeled by PT with [32P]NAD+, it was determined that plasma membrane preparations, of both the control cells and cells treated with 10 nM of DADLE for 4 h, contained equal concentrations of Ni, 2 pmol of Ni/mg of protein. Additionally, there was no measurable alteration in the amount of PT substrate in the lysosomal fractions of the DADLE-treated cells as compared to that of control cells. Chronic DADLE treatment resulted in a decrease in Km value of NAD+ in the ADP-ribosylation of 41-kDa subunit of Ni. In summary, opiate receptors internalize as agonist-receptor complexes without the guanine nucleotide-binding component.
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PMID:Effect of pertussis toxin treatment on the down-regulation of opiate receptors in neuroblastoma X glioma NG108-15 hybrid cells. 299 25

In membranes of neuroblastoma x glioma hybrid (NG108-15) cells, bradykinin (EC50 approximately equal to 5 nM) stimulates GTP hydrolysis by a high-affinity GTPase (Km approximately equal to 0.2 microM). The octapeptide, des-Arg9-bradykinin, was inactive. Stimulation of GTP hydrolysis by bradykinin and an opioid agonist was partially additive. Treatment of NG108-15 cells with pertussis toxin, which inactivates Ni, eliminated GTPase stimulation by the opioid agonist but not by bradykinin. The data suggest that bradykinin activates in NG108-15 membranes a guanine nucleotide-binding protein which is not sensitive to pertussis toxin and which may be involved in bradykinin-induced stimulation of phosphoinositide metabolism in these cells.
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PMID:Bradykinin stimulates GTP hydrolysis in NG108-15 membranes by a high-affinity, pertussis toxin-insensitive GTPase. 300 34

It has been found that neuroblastoma contains a relatively high immunoreactivity for the alpha subunit of guanine nucleotide-binding protein G(o) (G(o) alpha) (Kato et al., Cancer Res. 47, 5800-5805, 1987), which is predominantly localized in the nervous tissues and neuroendocrine cells. To make clear whether neuroblastoma indeed produces G(o) alpha, we purified a guanine nucleotide-binding protein from human neuroblastoma and compared it with G(o) alpha from human brain. A guanine nucleotide-binding protein serving as the specific substrate of islet-activating protein, pertussis toxin, was purified from a human neuroblastoma tissue obtained at surgical resection. The protein had a molecular mass of 39 kDa and reacted with rabbit antibodies to bovine G(o) alpha. Heat stability and kinetics of guanosine 5'-(3-O-thio)triphosphate binding of this protein were very similar to those of G(o) alpha purified from human brain. The results of peptide mapping analysis with a limited proteolysis and amino acid analysis indicated that there was no difference between these proteins. Therefore, it was concluded that this guanine nucleotide-binding protein isolated from neuroblastoma was very similar, if not identical, to brain G(o) alpha.
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PMID:Identification of a guanine nucleotide-binding protein G(o) in human neuroblastoma. 312 88

The major pertussis-toxin-sensitive guanine nucleotide-binding protein of rat glioma C6 BU1 cells corresponded immunologically to Gi2. Antibodies which recognize the alpha subunit of this protein indicated that it has an apparent molecular mass of 40 kDa and a pI of 5.7. Incubation of membranes of these cells with guanosine 5'-[beta gamma-imido]triphosphate, or other analogues of GTP, caused release of this polypeptide from the membrane in a time-dependent manner. Analogues of GDP or of ATP did not mimic this effect. The GTP analogues similarly caused release of the alpha subunit of Gi2 from membranes of C6 cells in which this G-protein had been inactivated by pretreatment with pertussis toxin. The beta subunit was not released from the membrane under any of these conditions, indicating that the release process was a specific response to the dissociation of the G-protein after binding of the GTP analogue. Similar nucleotide profiles for release of the alpha subunits of forms of Gi were noted for membranes of both the neuroblastoma x glioma hybrid cell line NG108-15 and of human platelets. These data provide evidence that: (1) pertussis-toxin-sensitive G-proteins, in native membranes, do indeed dissociate into alpha and beta gamma subunits upon activation; (2) the alpha subunit of 'Gi-like' proteins need not always remain in intimate association with the plasma membrane; and (3) the alpha subunit of Gi2 can still dissociate from the beta/gamma subunits after pertussis-toxin-catalysed ADP-ribosylation.
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PMID:GTP analogues promote release of the alpha subunit of the guanine nucleotide binding protein, Gi2, from membranes of rat glioma C6 BU1 cells. 314 Aug 1

Neuroblastoma x glioma hybrid, NG108-15, cells appear to express the alpha-subunit of the guanine nucleotide-binding protein Gs in a substantial molar excess over its effector adenylate cyclase [Kim, Adie and Milligan (1994) Eur. J. Biochem. 219, 135-143]. Addition of the IP prostanoid receptor agonist iloprost to intact NG108-15 cells resulted in a dose-dependent increase in formation of the complex between Gs alpha and adenylate cyclase (GSAC) as measured by specific high-affinity binding of [3H]forskolin. NG108-15 cells transfected to express either relatively high (clone beta N22) or low (clone beta N17) levels of beta 2-adrenoceptor both showed dose-dependent increases in specific [3H]forskolin binding in response to the beta-adrenoceptor agonist isoprenaline, and maximally effective concentrations of isoprenaline resulted in the generation of similar numbers of GSAC complexes in both clones. The dose-effect curve for clone beta N22, however, was some 15-fold to the left of that for clone beta N17, which is similar to that noted for isoprenaline-mediated stimulation of adenylate cyclase activity [Adie and Milligan (1994) Biochem. J. 303, 803-808]. In contrast, dose-effect curves for iloprost stimulation of [3H]forskolin binding were not different in clones beta N22 and beta N17. Basal specific [3H]forskolin binding in the absence of agonist was significantly greater in cells of clone beta N22 than clone beta N17. This was not a reflection of higher immunological levels of adenylate cyclase, indicating that the higher basal formation of GSAC probably reflects empty-receptor activation of Gs. This higher basal specific [3H]forskolin binding was partially reversed by propranolol. The addition of the opioid peptide D-Ala-D-Leu-enkephalin to NG108-15 cells did not reduce iloprost-stimulated [3H]forskolin binding even though this peptide inhibits stimulated adenylate cyclase activity by activation of a delta opioid receptor.
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PMID:Detection and analysis of agonist-induced formation of the complex of the stimulatory guanine nucleotide-binding protein with adenylate cyclase in intact wild-type and beta 2-adrenoceptor-expressing NG108-15 cells. 753 56

p21ras is a membrane-associated guanine nucleotide-binding protein with intrinsic GTPase activity. This protein is important in the regulation of cell growth and differentiation in a number of different cell types. Therefore, the aim of the present study was to examine the role of p21ras and regulators of its activity in the differentiation of neuroblastoma cells induced by retinoic acid (RA). Phosphorylation of p21ras is regulated by the GTPase activity of type I GAP120 and neurofibromin. RA-induced differentiation of the two neuroblastoma cell lines SK-N-SH and IMR-32 was closely related to growth inhibition. Differentiation induced by RA resulted in an increase in both type I GAP120 and neurofibromin mRNAs. This increase was accompanied by a decrease in the activation of p21ras. These results suggest that, in neuroblastoma, activation of p21ras is not associated with RA-induced differentiation. However, the GTPase activating proteins type I GAP120 and neurofibromin may have effector functions in RA-induced differentiation of neuroblastoma.
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PMID:Effect of retinoic acid on p21ras and regulators of its activity in neuroblastoma. 757 49

p21ras is a membrane-associated guanine nucleotide-binding protein with intrinsic GTPase activity. Like other guanine nucleotide-binding proteins p21ras is active when GTP bound and inactive when GDP bound. Phosphorylation of p21ras is regulated by the GTPase activity of type I GAP120 and NF1-GRD. In this study we have identified type I GAP120 and two NF1-GRD mRNAs in three neuroblastoma cell lines, IMR-32, SK-N-SH and SK-N-MC. NF1-GRD mRNA was expressed in all cell lines at a similar level but type I GAP120 mRNA was more abundant in the IMR-32 cell line. Retinoic acid induced differentiation of all three cell lines, this effect was most marked in the SK-N-SH line. This differentiation was accompanied by an increase in both type I GAP120 and NF1-GRD mRNAs. Retinoic acid induced differentiation had no effect on the ratio of type I to type II NF1-GRD mRNA. In seven patient tumour samples examined type I GAP120 and NF1-GRD were coexpressed, type I GAP120 at a higher level than NF1-GRD in all tumour stages. Type I was the predominant NF1-GRD mRNA. The expression of type I GAP120 was similar in all tumour stages but the total level of NF1-GRD was higher in stage 2 and 3 tumours than in stage 4 tumours. In summary, these results suggest increased type I GAP120 and NF1-GRD mRNA are associated with differentiation in neuroblastoma cells.
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PMID:Changing expression of GTPase activating proteins with differentiation in neuroblastoma. 785 16

Many different types of receptors couple to the inhibitory guanine nucleotide-binding protein (G protein) Gi. In NG108-15 neuroblastoma-glioma cells, alpha 2b-adrenergic, m4 muscarinic, and delta-opiate receptors all use Gi as a transducer. According to the ternary complex model of receptor-G protein interactions, agonists bind to these receptors with high affinity only in their G protein-associated form. Conversely, G protein affinity for the receptor is increased by agonist binding. We have developed an extended ternary complex model in which multiple receptors couple to a single G protein and we have examined two consequences of the model theoretically and experimentally. First, the simple ternary complex model can account for the observed high and low affinity agonist binding only when G protein is limiting; however, measurements show a significant excess of G protein over receptor. Could this paradox be explained by other receptors competing for the same G protein and limiting the amount of free G protein so that high and low affinity agonist binding would be seen? Our theoretical simulations show that this does not occur unless the receptors and G protein are present in a precise stoichiometric ratio and have an extremely high affinity, such as when agonists for both receptors are present. The second prediction of this model is that binding of an agonist at one receptor should produce competition for G protein used by another receptor. If the G protein pool were limiting and freely mobile, this would result in an unlabeled agonist at one receptor decreasing binding of a radiolabeled agonist to another receptor. Experimentally, the G protein was made limiting by a partial pertussis toxin treatment. Radioligand binding to alpha 2b-adrenergic and m4 muscarinic receptors in these pertussis toxin-treated NG108-15 membranes showed no cross-talk with the delta-opiate or muscarinic receptors, which are present in excess. This could occur because the different receptors interact with structurally different G proteins (e.g., distinct beta or gamma subunits). More likely it is because of limitations of the mobility of G proteins in the membrane due to 1) attachment to structural elements, such as the cytoskeleton, 2) sequestration in lipid pools, or 3) organization into slowly exchanging supramolecular complexes. These results show that we must reexamine the assumptions of the collision coupling and ternary complex models.
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PMID:Compartmentation of receptors and guanine nucleotide-binding proteins in NG108-15 cells: lack of cross-talk in agonist binding among the alpha 2-adrenergic, muscarinic, and opiate receptors. 809 95


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