UMLS:C0017638 - FACTA Search

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

The formation of ATP at the cell surface of intact glia and glioma cells in culture has been established. The ATP-forming capacity at the surface of the malignant cells was several times greater than that of the normal glia cells. The ATP-forming capacity was about the same on reincubation one hour after the first incubation. The cells were kept in Eagle's medium in the meantime. ADP, NAD+ and 3-phosphoglyceraldehyde could all be available from a postulated intramembranous metabolic pool and take part in biochemical reactions at the cell surface, provided that albumin was not present in the incubation medium. An incubation medium which was complete except for 3-phosphoglyceraldehyde was only slightly less effective as regards ATP formation at the surface of both glia and glioma cells, compared with the complete incubation medium. The presence of nucleoside diphosphate kinase at the glioma cell surface was confirmed. When intact cells were incubated with only the phosphoryl group donor (ATP) of the reaction but with the acceptor nucleoside diphosphates (CDP, GDP, UDP) ommitted, only CTP and GTP were formed. No UTP was found. Thes latter results indicate that both CDP and GDP are available from the postulated intramembranous metabolic pool, while UDP is not.
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PMID:On the availability of certain metabolites at the outer surface of normal and malignant cells for the membranous de novo synthesis of ATP and other nucleotides. 114 98

Ras (p21) proteins are involved in the control of cell growth and differentiation, but the mechanism by which they exert these effects is not yet known. Here we present evidence that c-Ha-ras (p21(Gly-12)) and its oncogenic mutant T24-ras (p21(Val-12)) selectively induce omega-conotoxin and dihydropyridine-sensitive Ca2+ currents within a few hours after introduction into the cytoplasm of neuroblastoma x glioma hybrid cells. Whereas control cells exhibited a mean Ca2+ current of 250 pA, it amounted to 730 pA in cells pretreated with ras protein. In cells loaded with p21(Gly-12), the effect occurred after 2 hours and was terminated after 8 hours. In contrast, introduction of p21(Val-12) resulted in a prolonged delay (6 hours) of the effect which lasted for more than 24 hours. When ras proteins were preactivated with the non-hydrolysable GTP analog GppNHp, the time courses of both p21(Gly-12) and p21(Val-12) effects were fast and sustained, suggesting that in intact cells (i) the GDP/GTP exchange is faster for p21(Gly-12) compared to p21(Val-12) and (ii) inactivation of p21(Gly-12) is mediated by GAP-induced GTPase activity. T-type Ca2+ currents and K+ currents were unaffected by ras proteins.
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PMID:Ras proteins activate calcium channels in neuronal cells. 165 68

Mouse neuroblastoma x rat glioma hybrid cells (N x G, 108CC15) were used to study the inhibitory effects of the synthetic opioid D-Ala2-D-Leu5-enkephalin (DADLE), somatostatin, adrenaline-alpha 2 and angiotensin II on voltage-dependent Ca(2+)-currents (ICa) using the patch-clamp technique in the whole-cell configuration mode. The inhibitory effects could be abolished by pretreatment of N x G cells with pertussis toxin or intracellular infusion of GDP beta S indicating an involvement of a pertussis toxin sensitive GTP-binding protein (G-protein), presumably Go. The effect of DADLE, the strongest inhibitor of ICa, was studied during dibutyryl cyclic AMP (dBcAMP) induced differentiation. Using omega-conotoxin GVIA (omega-CTX) and methoxyverapamil (D600) as specific Ca(2+)-channel blockers of the N- and L-type Ca(2+)-channels, it was found that in N x G cells DADLE predominantly induces inhibition of T- and N-type Ca(2+)-channels.
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PMID:Inhibitory modulation of fast and slow Ca(2+)-currents in neuroblastoma x glioma cells during differentiation. 165 35

In membranes of neuroblastoma x glioma (NG108-15) hybrid cells, the photoreactive GTP analog, [alpha-32P] GTP azidoanilide, was incorporated into 39-41-kDa proteins comigrating in urea-containing sodium dodecyl sulfate-polyacrylamide gels with immunologically identified G-protein alpha-subunits, i.e. a 39-kDa Go alpha-subunit, a 40-kDa Gi2 alpha-subunit, and a 41-kDa Gi alpha-subunit of an unknown subtype. The synthetic opioid, D-Ala2,D-Leu5-enkephalin (DADLE), stimulated photolabeling of the 39-41-kDa proteins. In the presence of GDP, which increased the ratio of agonist-stimulated to basal photolabeling, DADLE at a maximally effective concentration stimulated photolabeling of the 39- and the 40-kDa protein 2-3-fold. Somatostatin, adrenaline, and bradykinin were less potent than DADLE and, to varying degrees, stimulated photolabeling of the 40-kDa protein more than that of the 39-kDa protein. Prostaglandin E1 was inactive. The present data represent direct evidence for an activation of endogenous Go and Gi2 via opioid receptors and other receptors in the native membrane milieu.
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PMID:Evidence for opioid receptor-mediated activation of the G-proteins, Go and Gi2, in membranes of neuroblastoma x glioma (NG108-15) hybrid cells. 167 72

As assessed both by cholera-toxin-catalysed ADP-ribosylation and by immunoblotting with an anti-peptide antiserum raised against the C-terminal decapeptide of forms of Gs alpha (the alpha subunit of the stimulatory guanine nucleotide-binding protein), rat glioma C6 BU1 cells express two forms of Gs alpha: a major 44 kDa form and a much less prevalent 42 kDa form. We examined the effects of guanine nucleotides on the interaction of the 44 kDa form with the plasma membrane. Incubation of membranes of C6 BU1 cells with poorly hydrolysed analogues of GTP, but not with analogues of either ATP or GDP, caused the release of this Gs alpha from the membrane fraction. Release of Gs alpha was observed within 5 min, and continued throughout the incubation period. After treatment with guanosine 5'-[beta gamma-imido]triphosphate for 60 min, some 75% of this polypeptide had been released from its site of membrane attachment. These experiments demonstrate that Gs alpha need not remain associated invariantly with the plasma membrane.
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PMID:Persistent activation of the alpha subunit of Gs promotes its removal from the plasma membrane. 250 50

Activation of muscarinic cholinergic receptors of 1321N1 human astrocytoma cells attenuates cyclic AMP accumulation. This effect results from an activation of phosphodiesterase with no direct inhibition of adenylate cyclase activity. In spite of this lack of coupling of muscarinic receptors to adenylate cyclase, guanine nucleotides reduce the apparent binding affinity of the agonist carbachol in a washed membrane preparation of 1321N1 cells. The order of potency for this effect is guanosine 5'-O-(3-thiotriphosphate) greater than 5'-guanylyl-imidodiphosphate = GTP = GDP; ATP has no effect. The occurrence of a Mr = 41,000 protein labeled in the presence of [32P]NAD and pertussis toxin as well as the occurrence of guanine nucleotide-mediated inhibition of forskolin-stimulated adenylate cyclase activity indicate that the functional inhibitory guanine nucleotide regulatory component of adenylate cyclase (Ni) is present in 1321N1 cells. Pertussis toxin pretreatment of NG108-15 neuroblastoma X glioma cells, which express muscarinic receptors that link through Ni to inhibit adenylate cyclase, blocked the GTP-sensitive, high affinity binding of carbachol. In contrast, pretreatment of 1321N1 cells with a concentration of pertussis toxin that blocked [32P]ADP ribosylation of the Mr = 41,000 substrate and GTP-mediated inhibition of forskolin-stimulated adenylate cyclase activity had no effect on GTP-sensitive high affinity binding of carbachol. These results suggest that muscarinic cholinergic receptors of 1321N1 cells couple to a guanine nucleotide regulatory protein that is distinct from Ni.
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PMID:Guanine nucleotide-sensitive, high affinity binding of carbachol to muscarinic cholinergic receptors of 1321N1 astrocytoma cells is insensitive to pertussis toxin. 298

Rat glioma C6 BU1 cells contain a pertussis toxin substrate of 40 kDa which does not appear to be identical with Gi,Go or transducin. The GTP analogue, GTP[gamma S], inhibited the rate of pertussis toxin-catalysed ADPribosylation of this protein, while the GDP analogue GDP[beta S] stimulated this reaction. A protein of the same kDa value was ADPribosylated by cholera toxin in the absence of added guanine nucleotides. It is suggested that this 40 kDa protein can be a substrate for both cholera and pertussis toxins under appropriate conditions.
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PMID:Guanine nucleotide regulation of the pertussis and cholera toxin substrates of rat glioma C6 BU1 cells. 310 99

Incubation of membranes of neuroblastoma x glioma hybrid, NG108-15 cells with GDP beta S followed by immunoblotting of resolved membrane and supernatant fractions with specific anti-peptide antisera showed essentially all of the alpha subunit of Go to be associated with the membrane. Similar experiments with poorly hydrolyzed analogues of GTP caused release of a significant fraction (some 50% within 60 minutes) of Go alpha into the supernatant. This was not mimicked by analogues of ATP. Antisera directed against peptides corresponding to the extreme N and C-termini of GO alpha demonstrated that the released polypeptide was not proteolytically clipped. These experiments show that the alpha subunit of GO need not be invariably bound to the plasma membrane and that guanine nucleotide activation can release the alpha subunit of GO from its site of membrane attachment.
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PMID:GTP analogues cause release of the alpha subunit of the GTP binding protein, GO, from the plasma membrane of NG108-15 cells. 312 78

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

The guanine nucleotides GDP, GTP, and guanosine-5'-(beta, gamma-imido)triphosphate inhibit binding of opiates and opioid peptides to receptors solubilized from membranes of neuroblastoma X glioma NG108-15 hybrid cells. The inhibition reflects decreased affinity of receptors for opioid ligands. Whereas in membranes, only opioid agonist binding is sensitive to guanine nucleotide inhibition, both agonist and antagonist binding is reduced in the case of soluble receptors. Furthermore, soluble receptors are more sensitive to the effects of guanine nucleotides than are membrane-bound receptors. These observations are consistent with the suggestion that solubilized receptors may be complexes of an opiate binding protein and a guanine nucleotide-sensitive regulatory component.
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PMID:Guanine nucleotides inhibit binding of agonists and antagonists to soluble opiate receptors. 625 76

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