Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0017638 (glioma)
 30,880 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Neuroblastoma x glioma hybrid NG108-15 cells express a high-affinity IP prostanoid receptor. Saturation binding analysis of this receptor, using [3H]prostaglandin E1 ([3H]PGE1) as ligand, indicated that it was present at some 1.5 pmol/mg of membrane protein and displayed a dissociation constant for this ligand of 30-40 nM. Prolonged exposure of these cells either to PGE1 or to iloprost, which is a stable analogue of prostacyclin, caused a 40-70% decrease in levels of the receptor. The remaining receptors were capable of interacting with the stimulatory G-protein (Gs) of the adenylate cyclase cascade, as saturation analysis of the binding of [3H]PGE1 indicated that they had a similar affinity for the 3H-labelled ligand, and because the specific binding of [3H]PGE1 to these receptors was still sensitive to the presence of poorly hydrolysed analogues of GTP. We have recently demonstrated that prolonged exposure of NG108-15 ells to PGE1 causes a cyclic AMP-independent loss of Gs alpha-subunit (Gs alpha) from these cells [McKenzie & Milligan (1990) J. Biol. Chem. 265, 17084-17093]. Steady-state concentration of the larger 45 kDa form of Gs alpha (which is the predominant form expressed in these cells) was assessed to be 9.6 pmol/mg of membrane protein, and treatment with iloprost decreased levels of this polypeptide to some 3.0 pmol/mg of protein. Time courses of iloprost-mediated down-regulation of the IP prostanoid receptor, loss of Gs alpha protein as assessed by immunoblotting and loss of Gs alpha activity as assessed by the reconstitution of NaF stimulation of adenylate cyclase activity to membranes of S49 cyc- cells by sodium cholate extracts of NG108-15 cells were identical, suggesting that the loss of the IP prostanoid receptor and G-protein occurred in parallel. Each of these effects was half-maximal between 2 and 3 h of exposure to the agonist. Stoichiometry of loss of Gs alpha and IP prostanoid receptor was unchanged by the percentage receptor occupancy, and quantification indicated the loss of some 7-10 mol of Gs alpha/mol of receptor. This is the first report to demonstrate the temporal concurrence of loss of Gs alpha and of a receptor which interacts with this G-protein. Chronic activation of the IP prostanoid receptor on these cells results in the development of a heterologous form of desensitization to agents which function to activate adenylate cyclase [Kelly, Keen, Nobbs & MacDermot (1990) Br. J. Pharmacol. 99, 306-316]. Agonist regulation of Gs alpha levels in these cells may contribute to this process.
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PMID:Concurrent down-regulation of IP prostanoid receptors and the alpha-subunit of the stimulatory guanine-nucleotide-binding protein (Gs) during prolonged exposure of neuroblastoma x glioma cells to prostanoid agonists. Quantification and functional implications. 137 45

Chronic opioid treatment of neuroblastoma x glioma NG108-15 cells induces desensitization of the opioid receptor and this may involve a change in membrane protein phosphorylation. In an attempt to mimic this possible mechanism, we studied effects of phorbol ester activation of protein kinase C on opioid receptor activity. Incubation of NG108-15 hybrid cells with the phorbol ester 12-O-tetradecanoylphorbol-13-acetate (TPA) abolished up to 45% of opioid inhibition of cyclic AMP accumulation in intact cells, while basal accumulation and prostaglandin E1-stimulated cyclic AMP accumulation were unaltered. This decrease of opioid inhibition was dose- and time-dependent and the potency order of phorbol esters and apparent K activation (90 nM) for TPA were consistent with phorbol esters acting through the stimulation of protein kinase C. TPA also decreased the inhibition of cyclic AMP accumulation mediated through muscarinic and alpha-2 adrenergic receptors. These effects of TPA were best explained by a TPA-induced alteration of the inhibitory nucleotide-binding protein (Gi), the common transducer protein of these receptors. Impairment of Gi by TPA treatment was evidenced by a reduction in agonist-stimulated GTP hydrolysis and activation by GTP. Quantification of Gi by pertussis toxin-catalyzed ADP-ribosylation revealed that TPA decreased maximal labeling. In summary, phorbol esters appeared to attenuate opioid receptor activity by altering the activity of the transducer protein Gi.
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PMID:Attenuation of opioid receptor activity by phorbol esters in neuroblastoma x glioma NG108-15 hybrid cells. 215 50

Insulin and insulin-like growth factors (IGFs) are anabolic effectors in many tissues and cultured cells, including astrocytes and neurons. Receptors for insulin and IGFs are found throughout the human brain. We examined the level of insulin and IGF receptors on membranes prepared from surgical specimens of tumor (astrocytomas and glioblastomas) and normal human brain. Specific binding (per 100 micrograms membrane protein) of insulin was less than 5% in all normal and tumor samples. Specific binding of IGF-I to 12 normal brain specimens ranged from 1-8%. IGF-I binding to 18 glioma specimens ranged from 2-25%. Scatchard analyses of IGF-I binding confirmed increased IGF-I-binding sites in some glial tumors vs. normal brain, but detected no difference in affinity characteristics. Cross-linking of [125I]IGF-I demonstrated that glioma tissue expressed the same lower mol wt (approximately 118 kDa) alpha-subunit as the normal brain confirming the neural origin of the cells expressing the IGF-I receptor. IGF-binding proteins (approximately 40 kDa) were also found in the membranes of some of the glioma but none of the normal brain specimens. In cell lines derived from glioma specimens, IGF binding was readily detectable (4-10% specific binding), but insulin binding was barely detectable (0-03%) in every line examined. The size of the IGF-I alpha-subunit in the cultured cells was larger (approximately 133 kDa) than that in the original tissue. Most glioma cell lines exhibited an IGF-I dose-dependent stimulation of thymidine incorporation into DNA, and partially purified IGF-I receptors from these cells exhibited a dose-dependent stimulation of the autophosphorylation of the beta-subunit. We conclude that human glioma cells have functional IGF-I receptors and suggest a role for this receptor in glioma cell growth.
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PMID:Insulin-like growth factor-I receptors in human glial tumors. 216 27

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

Normal cell replication is regulated by growth factors such as epidermal growth factor (EGF) and platelet-derived growth factor (PDGF) that act through binding to specific surface receptors on target cells. Oncogenes may exert their transforming activity by encoding proteins that mimic the function of the normal regulatory factors along the mitogenic pathway, growth factors, their receptors or elements along the postreceptor signaling system. This may be exemplified by the human malignant glioma, in which the sis gene (encoding a growth factor homologous to PDGF) and the erb B gene (encoding a membrane protein homologous to the EGF receptor) have been implicated.
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PMID:Growth factors and oncogenes in human malignant glioma. 300 90

Amounts of the guanine nucleotide binding regulatory proteins which are also pertussis toxin substrates (such as Ni and No) were measured in rat glioma, C6BU-1, cells and in neuroblastoma X glioma, NG108-15, hybrid cells. Measurements were performed both by quantitating pertussis toxin catalyzed ADP-ribosylation and by quantitative immunoblotting with affinity purified antibodies specific for Ni or No. The amounts of pertussis toxin substrate in C6 and NG108-15 cells are 7.5 and 0.6 pmol/mg membrane protein, respectively. These levels are minimum values and higher estimates of the total amounts of N proteins in the two cells are obtained by quantitative immunoblot analysis of the beta-subunit common to all N proteins. Immunoblots with specific antibodies show that NG108-15 cells contain 3.8 pmol/mg of No and detectable but small (less than 0.1 pmol/mg) amounts of Ni. In contrast, C6 cell membranes contain no detectable No and only 0.14 pmol/mg Ni. Thus, C6 cells contain large amounts of a pertussis toxin substrate which is neither Ni nor No.
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PMID:The GTP-binding regulatory proteins of neuroblastoma x glioma, NG108-15, and glioma, C6, cells. Immunochemical evidence of a pertussis toxin substrate that is neither Ni nor No. 308 Mar 32

Typical insulin receptors are present on neuroblastoma cell lines. High affinity binding for insulin was present in membrane preparations from NG108 (a hybrid mouse neuroblastoma-rat glioma) as well as in membranes from SK-N-MC and SK-N-SH, two human neuroblastoma cell lines. Specific [125I]insulin binding was 24.4% for NG108, 16.9% for SK-N-MC and 5.2% for SK-N-SH at membrane protein concentrations of 0.4 mg/ml. IC50 for [125I]insulin binding was 3.4 nM in NG108 membrane preparations and 0.9 nM for SK-N-SH and 1.8 nM in SK-N-MC membranes. Apparent mol. wt. for the alpha subunits (identified by specific immunoprecipitation using the anti-insulin receptor antiserum B10) on SDS PAGE was 134 kDa for NG108; 124 kDa for SK-N-MC and 120 kDa for SK-N-SH. Neuraminidase digestion increased the mobility of the alpha subunit from both NG108 and SK-N-MC receptors to 120 kDa, whereas that from SK-N-SH were unaffected. Endoglycosidase H and endoglycosidase F digestions increased the mobility of the alpha subunits of all 3 cell lines to varying degrees, suggesting the presence of N-linked glycosylation. Insulin induced autophosphorylation of the insulin receptor beta subunit in WGA-purified membranes from all 3 cell lines. In addition, phosphorylation of a protein with an apparent mol. wt. 105 kDa was stimulated by insulin in WGA purified membranes from NG108. Tyrosine-specific kinase activity was present in the membranes from each cell line and was stimulated by insulin in a dose-dependent manner from 10(-9) to 10(-6) M. Proinsulin was about 100 times less potent in stimulating phosphorylation of the artificial substrate poly (Glu, Tyr)4:1 when compared to insulin in accordance with its lower binding affinity to the insulin receptor. Hexose transport was stimulated by insulin in all 3 cell lines. These results indicate that neuroblastoma cells contain specific insulin receptors and that they may be useful as models for studying the role of insulin in nervous tissue.
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PMID:Characterization of the altered oligosaccharide composition of the insulin receptor on neural-derived cells. 335 62

Islet-activating protein (IAP), one of the pertussis toxins, exerted dual actions on crude membrane preparations from rat C6 glioma cells; an Mr = 41,000 membrane protein was ADP-ribosylated while GTP (and GTP-dependent isoproterenol) activation of membrane adenylate cyclase was enhanced when membranes were incubated with IaP. Both actions of IaP were dependent on the incubation time and the concentrations of NAD and IAP, and were inhibited by nicotinamide; the one action was strictly paralleled by the other in magnitude. Tryptic digestion of the Mr = 41,000 protein was markedly influenced by the presence of guanyl-5'-yl beta-gamma-imidodiphosphate or NaF, the specific ligands of the regulatory component of the adenylate cyclase system. No ADP ribosylation occurred in the membranes prepared from intact C6 cells that had been incubated with IAP, suggesting that the IAP substrate had already been ADP-ribosylated by the intracellular NAD during incubation of the intact cells. Cholera toxin catalyzed ADP ribosylation of other proteins with Mr = 45,000 and 48,000/49,000 (doublet). It is concluded that IAP, added to intact cells or isolated membranes, causes unique modification of the receptor-adenylate cyclase coupling mechanism as a result of ADP ribosylation of the Mr = 41,000 protein which is presumably one of the subunits, other than the cholera toxin substrates, of the guanine nucleotide regulatory component of the cyclase system.
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PMID:ADP ribosylation of the specific membrane protein of C6 cells by islet-activating protein associated with modification of adenylate cyclase activity. 720 Sep 79

Neuroblastoma x glioma hybrid NG108-15 cells endogenously express at least three receptors which activate adenylate cyclase via the intermediacy of the stimulatory G-protein, Gs. Sustained exposure of the cells to agonists at the IP prostanoid receptor results in a substantial decrease in cellular levels of the alpha-subunit of Gs (Gs alpha) [McKenzie and Milligan (1990) J. Biol. Chem. 265, 17084-17093; Adie, Mullaney, McKenzie and Milligan (1992) Biochem J. 285, 529-536]. By contrast, equivalent treatments of the cells with agonists at either the A2 adenosine receptor or the secretin receptor have no measurable effect on cellular amounts of Gs alpha. To examine whether this is a feature specific to the IP prostanoid receptor or is related to the level of expression of the individual receptors, NG108-15 cells were transfected with a construct containing a human beta 2-adrenoceptor cDNA under the control of the beta-actin promoter. Two clones of these cells were examined in detail, beta N22, which expressed some 4000 fmol/mg of membrane protein, and clone beta N17, which expressed approx. 300 fmol/mg of membrane protein of the receptor. Exposure of beta N22 cells to the beta-adrenergic agonist isoprenaline resulted maximally in some 55% decrease in membrane-associated levels of Gs alpha, without effect on membrane levels of Gi2 alpha, Gi3 alpha, G(o) alpha or Gq alpha/G11 alpha. Dose-response curves to isoprenaline in beta N22 cells indicated that half-maximal down-regulation of Gs alpha was produced by approx. 1 nM agonist. Equivalent exposure of beta N17 cells to isoprenaline did not significantly modify levels of any of the G-protein alpha subunits, including Gs alpha. In beta N22 cells the IP prostanoid receptor was expressed at similar levels to those in wild-type NG108-15 cells, and treatment with iloprost resulted in a similar down-regulation of cellular Gs alpha levels. Iloprost was also effective in causing down-regulation of Gs alpha levels in clone beta N17. Concurrent addition of both isoprenaline and iloprost to clone beta N22 resulted in less than additive down-regulation of Gs alpha. These results demonstrate that the phenomenon of agonist-induced specific G-protein down-regulation is determined by the levels of expression of the receptor.
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PMID:Agonist regulation of cellular Gs alpha-subunit levels in neuroblastoma x glioma hybrid NG108-15 cells transfected to express different levels of the human beta 2 adrenoceptor. 751 55

Clones of neuroblastoma x glioma hybrid, NH108-15, cells expressing differing levels of the human beta 2 adrenoceptor were isolated. Two clones were examined in detail, beta N22 which expressed some 4000 fmol/mg of membrane protein and clone beta N17 which expressed approx. 300 fmol/mg of membrane protein of the receptor. In beta N22 cells 'basal' adenylate cyclase activity measured in the presence of Mg2+ was significantly greater than that in wild-type NG108-15 or beta N17 cells. Both isoprenaline and iloprost were able to stimulate adenylate cyclase activity in each of beta N22 and beta N17 membranes. However, the EC50 for isoprenaline stimulation of adenylate cyclase in membranes of beta N22 cells (6 nM) was significantly lower than that in membranes of beta N17 cells (80 nM), whereas the EC50 for iloprost stimulation of adenylate cyclase (approx. 25 nM) was the same in the two clones and in parental NG108-15 cells. The high basal adenylate cyclase activity of beta N22 cell membranes was not a reflection of higher levels of expression of the adenylate cyclase catalytic unit, as adenylate cyclase activity measured in the presence of Mn2+ was equivalent in membranes of each of wild-type NG108-15 cells and clones beta N22 and beta N17. Basal adenylate cyclase activity measured in the presence of Mg2+ in clone beta N22 was significantly reduced, however, by the beta-receptor antagonist propranolol, whereas this agent was without effect on basal adenylate cyclase activity in membranes of wild-type NG108-15 cells. These data indicate that the elevated basal adenylate cyclase cascade in NG108-15 cells expressing high levels of the beta 2 adrenoceptor represents empty receptor activation of the signalling cascade.
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PMID:Regulation of basal adenylate cyclase activity in neuroblastoma x glioma hybrid, NG108-15, cells transfected to express the human beta 2 adrenoceptor: evidence for empty receptor stimulation of the adenylate cyclase cascade. 798 Apr 49


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