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:C0017638 (glioma)
30,880 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The adenylate cyclase of C6 glioma cell cultures was characterized for sensitivity to the beta-adrenergic agonist isoproterenol, as well as fluoride, and GTP as a function of the cell cycle. The mitotic phase of the cell cycle was emphasized because both the basal cellular cyclic AMP level and the intact C6 cell's capacity to accumulate cyclic AMP in response to isoproterenol decreased during mitosis. Basal and stimulated adenylate cyclase activities in mitotic cells were decreased relative to the enzyme activities in the G1, S, and G2 phases of the cell cycle. Analysis of the beta-adrenergic receptor using the radioligand(-)[3H]dihydroalprenolol showed that neither ligand affinity nor receptor density changed during the cell cycle, indicating that the reduced adenylate cyclase activity of the mitotic C6 cell was not caused by alterations in this hormone receptor. The reduction in the mitotic cell's basal adenylate cyclase activity was more prominent than the decrease in isoproterenol-, fluoride, or GTP-stimulated activities suggesting that the effectiveness of these enzymes activators (i.e., the efficiency of the coupling mechanism) was not attenuated during mitosis. These studies indicate that the intrinsic catalytic capacity (not the beta-adrenergic receptor or the coupling mechanism) of the C6 adenylate cyclase complex is reduced during mitosis and contributes to the mitotic cell's inability to accumulate and maintain the cyclic AMP concentration at the interphase level.
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PMID:Cell cycle changes in the adenylate cyclase of C6 glioma cells. 626 74

The cAMP content of intact cells as well as adenylate cyclase of the membrane-rich particulate fractions was studied with C6 glioma cells that had been exposed to the culture medium supplemented with islet-activating protein (IAP), one of the pertussis toxins. Both the increase in the cellular cAMP content in response to a beta-adrenergic agonist and the stimulation of membrane adenylate cyclase by the beta-agonist and/or GTP were markedly enhanced by the IAP treatment of C6 cells, but no change was induced in affinities of the agonist (or an antagonist) or GTP for their respective sites of action (or binding). The concentration of IAP required for the half-maximal enhancement was as low as 1 pg/ml, when the time of cell exposure to the toxin was prolonged to 18 h. No enhancement was observed for the basal cAMP content or basal enzyme activity, nor was activation of adenylate cyclase by Gpp(NH)p (or NaF) affected by IAP treatment. The Vmax value of a specific and low Km GTPase was significantly smaller in the membranes of IAP-treated cells than in those of control cells. Cholera toxin treatment of cells activated adenylate cyclase without exerting any influence on these IAP actions. Thus, IAP would appear to enhance beta-receptor-coupled stimulation of adenylate cyclase, in a manner distinct from cholera toxin, by rendering more GTP available to the GTP sites on the regulatory subunit of the receptor-enzyme system.
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PMID:Modulation by islet-activating protein of adenylate cyclase activity in C6 glioma cells. 627 48

A doubly transformed rat glioma cell line, designated C6V-1, was obtained from rat glioma C6 cells by infection with a rat-adapted variant of Moloney sarcoma virus (MSV-M-os). The C6V-1 cells show karyotypic changes in chromosome number (43) and structure, while C6 cells possess a normal male karyotype. C6V-1 and C6 cells were employed for characterization of a receptor-adenylate cyclase system of the surface membrane. C6V-1 cells showed lower adenylate cyclase activity than that of C6 cells, though the apparent Km for ATP in both types of cells was the same. The maximal stimulation of adenylate cyclase by isoproterenol was significantly reduced, and Kact for isoproterenol was approximately 18-fold lower in C6V-1 cells. When the concentration of beta-adrenergic receptors was measured by various concentrations of [3H] dihydroalprenolol (DHA), the maximal binding sites of C6 and C6V-1 cells were 760 and 230 fmol/mg protein, respectively, without any changes in the association constant for DHA. The concentration of isoproterenol required for 50% displacement of the [3H] DHA binding (Kd) was the same (around 1.5 X 10(-6)M) in both cells, measured in the presence of GTP. Thus the 19-fold drop in the Kd/Kact ratio in C6V-1 cells suggests an incomplete coupling of beta-receptors to adenylate cyclase. Cyclic AMP phosphodiesterase activity and cAMP content in C6V-1 were lower than in C6 cells. Mitochondrial monoamine oxidase and cytosomal enolase activities, however, were somewhat higher in C6V-1 cells. The results indicate that a set of changes in the receptors and in the cyclic AMP system of C6V-1 is one of the specific alterations by transformation, even though those may not be the cause of cell transformation.
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PMID:Receptor-associated changes of the catecholamine-sensitive adenylate cyclase in glioma cells doubly transformed with Moloney sarcoma virus. 627 81

Two different -SH groups associated with the opiate receptors of the mouse neuroblastoma X rat glioma hybrid NG108-15 have been identified. Modification of these by N-ethylmaleimide (NEM) (presumed to be via alkylation) or by para-chloromercuribenzoic acid (presumed to be via formation of mercury adducts) decreases the binding of both opiate agonists and antagonists to these receptors. Agonist binding is more sensitive than antagonist binding to modification by NEM. Losses in antagonist binding are accounted for totally by decreases in the number of binding sites; there are no corresponding losses in antagonist affinity. Losses of antagonist binding exhibit a pseudo-first order rate constant; the modification of only one such group completely destroys the binding site. Both agonists and antagonists protect against modification of this group by NEM. Sodium and lithium, but not GTP, also protect this group, indicating that the action of these monovalent cations is directly on the receptor moiety. Losses in agonist binding stem not only from decreases in receptor number but also from selective losses in affinity. This -SH group appears to be different from the one at the binding site as sodium, GTP, and antagonist ligands do not protect against losses in agonist affinity. Agonist high affinity also is lost in a pseudo-first order fashion indicating that an alteration of only one -SH group per receptor complex is sufficient to produce this effect. The possible roles of two sulfhydryls in opiate receptor function are discussed.
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PMID:Protection of opiate receptors in NG108-15 against modification by N-ethylmaleimide. 629 30

It has been repeatedly demonstrated that the neuroblastoma-glioma (NG 108-15) cell line has opiate receptors that inhibit adenylate cyclase and it has been proposed that this inhibition is mediated by a naloxone reversible stimulation of a low Km GTPase (Koski and Klee, Proc. Natl. Acad. Sci. 78:4185, 1981). The guanine nucleotides of NG cells were labeled with [3H]guanine followed by incubation with 10(-6)M guanine. Etorphine (10(-6)M) or vehicle were added and the incubations continued for 1-4 min. The reaction was stopped with 5 percent TCA containing nucleotides as carriers and markers for the HPLC. Marker nucleotides were detected at 254 nm and the labeled nucleotides by liquid scintillation spectrometry. In several experiments, etorphine failed to produce any measurable change in the labeled nucleotides or in the GTP/GDP ratios. To verify that the opiate receptors were functional we measured its capacity to inhibit the formation of cAMP induced by PGE1. We also studied the effects of naloxone and PGE1 on the formation of cAMP in opiate tolerant cells. Tolerant cells responded to naloxone with a 50 percent increase in cAMP, indicating again that the opiate receptors were functional. Our results are consistent with the idea that in intact NG108-15 cells the opiate-mediated hydrolysis of GTP observed in cell membrane preparations is of very small magnitude.
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PMID:Failure of opiates to increase the hydrolysis of GTP in neuroblastoma-glioma 108-15 cells. 631 Mar 3

The incorporation of methionine, lysine, and leucine into protein was studied in Ca2+-depleted and Ca2+-restored preparations of C-6 glial tumor cells in minimal medium. Although incorporation proceeded at linear rates in both preparations for more than 1 h and into the same spectrum of proteins, Ca2+-restored cells incorporated amino acid 5- to 10-fold more rapidly than Ca2+-depleted cells. Addition of approximately 200 microM Ca2+ in excess of chelator was required to achieve maximal rates of incorporation in Ca2+-depleted preparations. Stimulation by Ca2+ was rapid in onset (several minutes) and slowly reversible by chelator. Ca2+ was uniquely potent and specific among physiologically occurring cations in conferring such stimulation. Stimulation of amino acid incorporation by Ca2+ occurred over a broad range of pH and osmolarities and was facilitated by Mg2+. The effects of Ca2+ in stimulating amino acid incorporation were not traceable to changes in cAMP metabolism, amino acid uptake, protein catabolism, cell ATP or GTP content, or aminoacylation of transfer RNA. Actinomycin D (1 microgram/ml) did not block the stimulatory effects of Ca2+ although puromycin and cycloheximide did. The stimulatory effects of Ca2+ on protein synthesis were not restricted to C-6 in minimal medium. Protein synthesis was reduced by ethylene glycol bis(B-aminoethyl ether)-N,N,N',N'-tetraacetic acid 40 to 75% in C-6 glioma, GH3 pituitary tumor, PC-12 adrenal tumor, N2A neuroblastoma, and HeLa cells incubated under simulated growth conditions with various enriched media and sera. Ca2+-depleted S49 lymphoma, CHO ovarian tumor, and normal, dispersed chicken embryo cells in enriched medium responded to Ca2+ restoration with increased rates of protein synthesis as did collagenase-dispersed normal rat liver cells in minimal medium. Protein synthesis in rabbit reticulocyte lysates was also inhibited by Ca2+-selective chelators or by Ca2+ removal by parvalbumin affinity chromatography and the inhibition was reversed by Ca2+. These findings are consistent with the existence of a Ca2+ requirement in the translational phase of protein synthesis in eukaryotic cells.
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PMID:Identification of a Ca2+ requirement for protein synthesis in eukaryotic cells. 631 27

Previous studies with membranes from rat heart (Mol. Pharmacol. 21: 570-580, 1982) and human platelets (J. Biol. Chem. 257: 2829-2833, 1982) have suggested that inhibition of adenylate cyclase by occupation of hormone receptors is blocked by pretreatment of membranes with relatively low concentrations of N-ethylmaleimide (NEM). Using membranes derived from NG108-15 neuroblastoma X glioma cells as a model system, we have examined the effect of NEM on the interaction of three inhibitory receptors with adenylate cyclase. Pretreatment of membranes with 100 to 216 microM NEM resulted in a loss of the capacity of agonists to inhibit adenylate cyclase through muscarinic cholinergic and opiate receptors and a loss of GTP-sensitive high-affinity binding of agonists to both of these receptors. Under the same conditions, stimulation of adenylate cyclase by prostaglandin E1 was unchanged. In contrast to the total loss of capacity to inhibit adenylate cyclase by muscarinic and opiate receptor activation, the inhibition of adenylate cyclase by activation of alpha-2 adrenergic receptors was only partially blocked by maximally effective concentrations of NEM. Similarly, GTP-sensitive high-affinity binding of epinephrine to alpha-2 receptors still occurred in NEM (316 microM)-treated membranes. Whereas only a decrease in the efficacy of muscarinic and opiate receptor agonists for inhibition of adenylate cyclase occurred as a result of NEM treatment, pretreatment of membranes with 316 microM NEM resulted in a 30-fold decrease in the potency of epinephrine for inhibition of adenylate cyclase.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Modification of receptor-mediated inhibition of adenylate cyclase in NG108-15 neuroblastoma X glioma cells by n-ethylmaleimide. 631 78

Islet-activating protein (IAP), pertussis toxin, is an oligomeric protein composed of as A protomer and a B oligomer. IAP and its A protomer were equipotent, on a molar basis, in enhancing GTP-dependent adenylate cyclase activity and in causing ADP-ribosylation of the 41,000 Mr protein when directly added to the cell-free membrane preparation from rat C6 glioma cells. Similar actions of IAP observed upon its addition to intact C6 cells were not mimicked by its A protomer, indicating that the A protomer had to be associated with the B oligomer to become accessible to its site of action on the inner surface of the membrane of intact cells. The A protomer, but not IAP, exhibited NAD-glycohydrolase activity in the reaction mixture lacking cellular components but containing dithiothreitol. Their actions on membranes were not accelerated by dithiothreitol, but markedly suppressed by oxidized glutathione. Thus, C6 cell membranes may possess certain "processing" enzyme(s) responsible for releasing the A protomer from the IAP molecule and for reductive cleavage of an intrachain disulfide bond in the released protomer, thereby producing an active peptide which functions to cause ADP-ribosylation of one of the subunits of guanine nucleotide regulatory protein in the receptor-adenylate cyclase system.
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PMID:The A protomer of islet-activating protein, pertussis toxin, as an active peptide catalyzing ADP-ribosylation of a membrane protein. 668 82

Tetrahydrobiopterin content was determined in several clonal cell lines by reversed-phase HPLC and subsequent electrochemical detection. The same chromatography system was used to determine the total biopterin (tetrahydrobiopterin and 7,8-dihydrobiopterin) by fluorescence detection. The catecholamine-producing clones neuroblastoma N1E-115 and pheochromocytoma PC-12 contained 96 and 60 ng tetrahydrobiopterin/mg protein, respectively. The corresponding amount for the neuroblastoma clone N2A was 36 ng/mg protein. The tetrahydrobiopterin content in C-6 glioma cells was below the limit of detection. The total biopterin is about 20% above the tetrahydrobiopterin content. Tetrahydrobiopterin and biopterin from the cells were identified by coelution with standard solutions and by potential-current relationship or emission and excitation spectra, respectively. Addition of 2,4-diamino-6-hydroxypyrimidine, an inhibitor of biopterin synthesis from GTP, to the culture medium of PC-12 cells resulted in a dose-dependent decrease of tetrahydrobiopterin and total biopterin content within 4 h, suggesting that the cells are capable of synthesising the biopterin which was found. A decrease in intracellular tetrahydrobiopterin levels by different concentrations of 2,4-diamino-6-hydroxypyrimidine reduces the cellular production of dihydroxyphenylalanine after inhibition of aromatic L-amino acid decarboxylase, indicating that the concentration of tetrahydrobiopterin might be a limiting factor for catecholamine synthesis in catecholamine-producing cells.
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PMID:Tetrahydrobiopterin and total biopterin content of neuroblastoma (N1E-115, N2A) and pheochromocytoma (PC-12) clones and the dependence of catecholamine synthesis on tetrahydrobiopterin concentration in PC-12 cells. 669 75

Cholera toxin catalyzed the transfer of radioactive label from [adenine-2,8-3H2]NAD+ or ((32P]NAD+ to rat C6 glioma cell membrane and cytosolic proteins. Labeled proteins were resolved by polyacrylamide-NaDodSO4 gel or two-dimensional gel electrophoresis and stained with Coomassie blue, and the gels were subjected to fluorography or autoradiography. Autoradiograms of gels revealed labeled Mr 42000 and 46000-48000 membrane proteins that are putative subunits of the regulatory component (G/F) of the C6 cell hormone-sensitive adenylate cyclase. Cholera toxin also catalyzed the labeling of several cytosolic proteins including a Mr 54000 protein that was observed in autoradiograms of two-dimensional gels to migrate as an acidic satellite relative to Coomassie-stained C6 cell tubulin. Tubulin modified by ADP-ribosylation would undergo an acid shift relative to the stained unmodified tubulin in two-dimensional gels. The data led us to postulate that tubulin undergoes cholera toxin catalyzed ADP-ribosylation. Bovine brain tubulin prepared by three cycles of warm/cold polymerization/depolymerization was incubated with [32P]NAD+, GTP, and cholera toxin and then subjected to two-dimensional gel electrophoresis. Autoradiograms of the gels revealed the presence of [32P]ADP-ribosylated proteins that migrated as acidic satellites relative to the Coomassie-stained brain alpha and beta tubulin. Peptide maps of bovine brain tubulin and the associated [32P]ADP-ribosylated proteins showed a correspondence between the autoradiographic images and the stained peptide fragments. The data demonstrate that cholera toxin catalyzes the ADP-ribosylation of tubulin.
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PMID:Tubulin adenosine diphosphate ribosylation is catalyzed by cholera toxin. 712 51


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