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)

Previous studies from this laboratory have shown that C-6 rat glioma cells (2B clone) exhibit specific phenotypic characteristics depending on passage in culture and that these populations respond differentially to addition of various exogenous compounds to the medium. Early passage (less than 25) C-6 glial cells express low glutamine synthetase activity (a marker for astrocytes) and with increasing cell passage (greater than 70) C-6 glial cells express more astrocytic properties with respect to both glutamine synthetase (GS) and morphology. In this study, cells from both early (glioblastic) and late (astrocytic) passage were examined for their response to the phospholipid, platelet-activating factor (PAF). We found that PAF increased GS activity in early passage (glioblastic) cells and more importantly it increased GS activity in late passage cells, already committed to the astrocytic phenotype. Furthermore, cells from both passages failed to respond to addition of lyso-PAF, the non-biologically active analog of PAF, to the medium. By following the uptake of 3H-PAF into cells, we observed that greater than 90% of the phospholipid was taken into the cells within the first hour of incubation. We compared the PAF effects with that of dibutyryl cyclic AMP (dBcAMP) and RO20-1724, a phosphodiesterase inhibitor. Cells from the early passage responded to both dBcAMP and RO20-1724 treatments with a significant increase in GS activity whereas cells from the late passage showed no significant change, confirming earlier reports from this laboratory. These findings indicate that the response of C-6 glioma cells to PAF (at least in the late passage) is not mediated via cyclic AMP. We suggest that in early passage cells PAF promotes expression of the astrocytic phenotype and in late passage cells PAF mediates a gliosis-type response.
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PMID:Platelet-activating factor increases glutamine synthetase activity in early and late passage C-6 glioma cells. 167 34

The increase in hormone-stimulated cyclic AMP accumulation observed in a variety of intact cells after chronic pretreatment with drugs that inhibit adenylate cyclase activity has been attributed to an increase in adenylate cyclase activity following withdrawal of the inhibitory drug. In NG 108-15 mouse neuroblastoma X rat glioma hybrid cells (NG cells) chronically treated with the muscarinic cholinergic agonist carbachol, we have found a significant decrease in the apparent degradation rate constant for cyclic AMP, in addition to an increase in the prostaglandin E1 (PGE1)-stimulated cyclic AMP synthesis rate in intact cells. In carbachol-pretreated NG cells that were stimulated with a maximally effective dose of PGE1, and that accumulated steady-state cyclic AMP concentrations fourfold or more higher than in control cells, the apparent rate constant for degradation was about 53% lower than the value for control cells. In carbachol-pretreated cells stimulated with a submaximal dose of PGE1 to yield a steady-state cyclic AMP concentration comparable to control cells, the apparent rate constant was 31% lower than the value for control cells. In S49 mouse lymphoma cells (S49 cells) chronically treated with an analog of the inhibitory agonist somatostatin, the first-order rate constant for cyclic AMP degradation in intact cells following isoproterenol stimulation was 29% lower than the value for control cells. Despite these changes in the kinetics of cyclic AMP degradation in intact NG cells and S49 cells, there was either no change or a minimal change (less than 10%) in phosphodiesterase activities assayed in extracts of cells chronically exposed to inhibitory drugs.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Decreased cyclic AMP degradation in NG 108-15 neuroblastoma X glioma hybrid cells and S49 lymphoma cells chronically treated with drugs that inhibit adenylate cyclase. 168 17

Clonal lines of murine neuroblastoma (NBP2) and rat glioma (C6) were used to investigate the effects of methylmercuric chloride (CH3HgCl). Glioma cells were more sensitive to CH3HgCl than NB cells on the criterion of growth inhibition, but these cells were equally sensitive to inorganic mercury (HgCl1), Tri-n-butyl lead acetate and acrylamide on the same criterion. Alpha-tocopherol, alpha-tocopheryl++ succinate and inhibitors of cAMP phosphodiesterase protected glioma cells against the growth-inhibitory effect of CH3HgCl, but they failed to protect NB cells in culture. Glioma factors, sodium ascorbate, non-inhibitory concentrations of prostaglandins E1 (PGE1), and glutamate enhanced the growth-inhibitory effect of CH3HgCl on both NB and glioma cells in culture. The levels of certain specific cAMP-dependent and -independent protein phosphorylations appear to be very sensitive to CH3HgCl, and can be altered in both cell types by concentrations of CH3HgCl which do not affect growth or morphology of these cells.
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PMID:New opportunities with neuronal cultures to study the mechanisms of neurotoxic injuries. 174 37

Previous experiments have demonstrated that double-stranded RNAs (dsRNAs) can exert an antiproliferative effect on human tumor cells, independent of interferon (IFN) induction. However, the mechanism by which dsRNAs inhibit tumor growth has not been elucidated. As a first step in determining the molecular events responsible for growth arrest, we have explored the role of signal transduction through the cAMP system in the antiproliferative effect of the mismatched dsRNA, r(I)n.r(C12,U)n (Ampligen). These studies utilized the human glioma cell line A1235, which does not produce detectable levels of IFN-alpha, -beta, or -gamma in response to mismatched dsRNA treatment. Treatment of A1235 cells with mismatched dsRNA in combination with either 1-(5-isoquinolinesulfonyl)-2-methylpiperazine (H-7), which inhibits cAMP-dependent protein kinase and protein kinase C, or N-(2-guanidinoethyl)-5-isoquinolinesulfonamide (HA1004), which preferentially inhibits the cAMP-dependent protein kinase, yielded an antagonism of the mismatched dsRNA-induced antiproliferative effect. Measurement of adenylate cyclase activation showed a dose-dependent increase in activity at antiproliferative mismatched dsRNA concentrations, but not at lower, nonantiproliferative doses. This increase in activity was rapid, seen as early as 30 sec after initiation of treatment, and it was sustained at peak levels for 1-2 hr. Analysis of the intracellular cAMP concentration gave similar kinetics of induction. Exposure of cells to the stable cAMP analogue dibutyryl cAMP yielded dose-dependent inhibition of cell growth. The cAMP phosphodiesterase inhibitor 3-isobutyl-1-methylxanthine also inhibited proliferation. In contrast, neither H-7 nor HA1004 had an effect on growth inhibition induced by human natural IFN-alpha treatment. In addition, antiproliferative doses of IFN-alpha did not increase cAMP concentrations. These results indicate that the cAMP system is utilized by mismatched dsRNA as an early signal transduction mechanism for growth control. Furthermore, the antiproliferative effects induced by mismatched dsRNA and IFN can occur by different mechanisms of action.
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PMID:Cyclic AMP mediates the direct antiproliferative action of mismatched double-stranded RNA. 184 67

Many cells develop an adaptive increase in the capacity of adenylate cyclase to synthesize cyclic AMP (cAMP) after prolonged (hours or days) exposure to drugs which initially inhibit enzyme activity. Recent evidence suggests that adaptive increases in cAMP responses can be induced within minutes by inhibitory drugs. We have investigated the kinetics for induction and decay of this phenomenon in mouse neuroblastoma x rat glioma hybrid cells. The muscarinic cholinergic agonist carbachol induced an increase in prostaglandin E1-stimulated cAMP accumulation within 2 min of pretreatment with carbachol; the increase was 70 to 100% above control values after exposure to carbachol for 30 min. Enhanced cAMP responsiveness decayed with a half-life of about 8 min after removal of carbachol. Pretreatment with carbachol for 30 hr led to an enhanced cAMP response which decayed in two components, a rapid component and an additional, more stable component which persisted for at least 2 hr after withdrawal of carbachol. Pertussis toxin prevented these effects of carbachol. Prevention of carbachol-induced inhibition of cAMP accumulation below basal concentrations with a phosphodiesterase inhibitor did not prevent the ability of carbachol to acutely induce augmented prostaglandin E1-stimulated cAMP accumulation. Mouse neuroblastoma x rat glioma hybrid cells exhibit an enhanced cAMP response after both acute and chronic exposure to a muscarinic cholinergic agonist although these processes decay with different time courses. The signal for this acutely induced adaptation does not appear to be the decrease in cellular cAMP concentration resulting from inhibition of adenylate cyclase but does require a pertussis toxin-sensitive substrate.
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PMID:Activation of muscarinic cholinergic receptors in mouse neuroblastoma x rat glioma hybrid cells: rapid induction of enhanced capacity of prostaglandin E1 receptors to stimulate cyclic AMP accumulation. 215 56

The hypothesis that the small portion of cellular phosphoinositide participating in signal transduction might be preferentially recycled within the plasma membrane was tested in rat glioma (C6) and murine neuroblastoma (N1E-115) cells. Percoll density gradient centrifugation was used to isolate a purified plasma membrane fraction and the subcellular distribution of all enzymes mediating phosphoinositide turnover was assessed. A small but significant proportion of PtdInsP2-specific phosphodiesterase was located in the plasma membrane but only two of the five enzymes required to replace PtdInsP2 (diacylglycerol kinase and PtdInsP kinase) also were present. CTP:phosphatidate cytidylyltransferase and CMP-phosphatidate:inositol phosphatidyltransferase were located exclusively in a microsomal fraction containing enriched levels of endoplasmic reticulum markers. Thus, diacylglycerol from agonist-stimulated cleavage of PtdInsP2, or phosphatidic acid formed from it, must be transferred to the endoplasmic reticulum for conversion to PtdIns. Plasma membrane also lacked PtdIns kinase. If the soluble PtdIns kinase has access to membrane-bound substrate, PtdIns may be phosphorylated to PtdInsP before or during transport to the plasma membrane. Phosphorylation by the predominantly plasma membrane PtdInsP kinase to form PtdInsP2 completes the cycle. PtdInsP phosphatase was present in all membrane fractions suggesting that PtdInsP can be returned to the PtdIns pool in plasma membrane and elsewhere. PtdInsP2 phosphatase was almost exclusively in the cytosol suggesting that reversible interchange between PtdInsP and PtdInsP2 in the plasma membrane may be modulated by the ability of this phosphatase to act on PtdInsP2 in the membrane. Thus, PtdIns resynthesis in the plasma membrane of these cells does not occur and is not required for phosphoinositide-mediated signal transduction.
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PMID:Phosphoinositide metabolism in cultured glioma and neuroblastoma cells: subcellular distribution of enzymes indicate incomplete turnover at the plasma membrane. 215 58

Cultures of rat C6 rat glioma cells exhibit a diminished response to isoproterenol and forskolin after being treated with phorbol 12,13-dibutyrate (PDbU). An IC50 for PDbU of 38 +/- 5 nM and 62 +/- 8 nM was observed in the isoproterenol and forskolin response, respectively. Similarly, C6 cultures exhibited a diminished response to isoproterenol and forskolin after an overnight incubation with phospholipase C. We previously demonstrated that this treatment will increase diacylglycerol levels in these cells (Bressler: J Neurochem 48:181-186, 1987). An IC50 for phospholipase C of 6.0 +/- 0.1 x 10(-1) and 7.0 +/- 0.1 x 10(-1) units/ml was observed for the isoproterenol and forskolin response, respectively. A kinetic analysis suggests that the site of PDbU-mediated inhibition to beta-adrenergic and forskolin stimulation was different. Degradation of cAMP was a contributory factor since elevated cAMP levels decreased faster in PDbU treated cells than in nontreated cells. In addition, PDbU treated cells exhibited a significantly higher level of phosphodiesterase activity. We conclude that activation of protein kinase C and subsequent stimulation of phosphodiesterase activity contributes to the inhibition of the beta-adrenergic and forskolin mediated increase in cAMP levels in intact C6 rat glioma cells. The consequences of lower cAMP levels in sustaining differentiated function in the C6 rat glioma cell line will be discussed.
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PMID:Regulation of cAMP levels by protein kinase C in C6 rat glioma cells. 215 30

Secretin receptors in membranes from the neuroblastoma-glioma hybrid cell line NG108-15 were investigated by 125I-secretin binding and adenylate cyclase activation. On both parameters the corresponding relative potencies of parent peptides were, respectively: secretin greater than helodermin greater than peptide histidine isoleucinamide = vasoactive intestinal peptide. With secretin analogs and secretin fragments, the order of potency for binding was: secretin = [Val5]secretin greater than [Ala2]secretin = [Ala11]secretin greater than [Ala4, Val5] secretin greater than [Ala4]secretin greater than [D-Phe4] secretin greater than [D-Phe2]secretin = secretin (2-27) greater than secretin (3-27) greater than secretin (7-27). Also, on adenylate cyclase, [D-Phe4]secretin, [D-Phe2]secretin, secretin (2-27) and secretin (3-27) were partial agonists while secretin (7-27) was ineffective. The differentiating agent N6,2'-O-dibutyryladenosine 3',5'-monophosphate (1 mM) increased the density of secretin receptors and secretin-stimulated adenylate cyclase activity after a lag period of 4 h. After incubation for 24 h, receptor number and enzyme activity were increased 4- and 3-fold, respectively. These effects were inhibited totally by 1 microgram/ml cycloheximide and halved by 5 micrograms/ml actinomycin D. They were mimicked by 1 mM sodium butyrate but were not reproduced by either 8-bromoadenosine 3',5'-monophosphate or the phosphodiesterase inhibitor rac-4-(3-Butoxy-4-methoxybenzyl)-2-imidazolidinone.
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PMID:Secretin receptors in the neuroglioma hybrid cell line NG108-15. Characterization and regulation of their expression. 217 30

Atrial natriuretic factors (ANFs) were tested for their effects on cyclic GMP production in two neurally derived cell lines, the C6-2B rat glioma cells and the PC12 rat pheochromocytoma cells. These cell lines were selected because both are known to possess high amounts of the particulate form of guanylate cyclase, a proposed target of ANF in peripheral organs. Previous studies from our laboratory have shown that ANF selectively activates particulate, but not soluble, guanylate cyclase in homogenates of a variety of rat tissues and that one class of ANF receptor appears to be the same glycoprotein as particulate guanylate cyclase. In the present study we found that four analogs of ANF stimulate cyclic GMP accumulation in both C6-2B and PC12 cells with the rank order of potency being atriopeptin III = atriopeptin II greater than human atrial natriuretic polypeptide greater than atriopeptin I. Atriopeptin II (100 nM) for 20 min elevated cyclic GMP content in C6-2B cells fourfold and in PC12 cells 12-fold. Atriopeptin II (100 nM) for 20 min also stimulated the efflux of cyclic GMP from both C6-2B cells (47-fold) and PC12 cells (12-fold). Accumulation of cyclic GMP in both cells and media was enhanced by preincubation with the phosphodiesterase inhibitor 3-isobutyl-1-methylxanthine (250 microM). After 20 min of exposure to atriopeptin II, cyclic GMP amounts in the media were equal to or greater than the amounts in the cells.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Atrial natriuretic factors stimulate accumulation and efflux of cyclic GMP in C6-2B rat glioma and PC12 rat pheochromocytoma cell cultures. 243 84

Calmodulin (CaM)-dependent enzymes, such as CaM-dependent phosphodiesterase (CaM-PDE), CaM-dependent protein phosphatase (CN), and CaM-dependent protein kinase II (CaM kinase II), are found in high concentrations in differentiated mammalian neurons. In order to determine whether neuroblastoma cells express these CaM-dependent enzymes as a consequence of cellular differentiation, a series of experiments was performed on human SMS-KCNR neuroblastoma cells; these cells morphologically differentiate in response to retinoic acid and phorbol esters [12-O-tetradecanoylphorbol 13-acetate (TPA)]. Using biotinylated CaM overlay procedures, immunoblotting, and protein phosphorylation assays, we found that SMS-KCNR cells expressed CN and CaM-PDE, but did not appear to have other neuronal CaM-binding proteins. Exposure to retinoic acid, TPA, or conditioned media from human HTB-14 glioma cells did not markedly alter the expression of CaM-binding proteins; 21-day treatment with retinoic acid, however, did induce expression of novel CaM-binding proteins of 74 and 76 kilodaltons. Using affinity-purified polyclonal antibodies, CaM-PDE immunoreactivity was detected as a 75-kilodalton peptide in undifferentiated cells, but as a 61-kilodalton peptide in differentiated cells. CaM kinase II activity and subunit autophosphorylation was not evident in either undifferentiated or neurite-bearing cells; however, CaM-dependent phosphatase activity was seen. Immunoblot analysis with affinity-purified antibodies against CN indicated that this enzyme was present in SMS-KCNR cells regardless of their state of differentiation. Although SMS-KCNR cells did not show a complete pattern of neuronal CaM-binding proteins, particularly because CaM kinase II activity was lacking, they may be useful models for examination of CaM-PDE and CN expression. It is possible that CaM-dependent enzymes can be used as sensitive markers for terminal neuronal differentiation.
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PMID:Expression of calmodulin-dependent phosphodiesterase, calmodulin-dependent protein phosphatase, and other calmodulin-binding proteins in human SMS-KCNR neuroblastoma cells. 254 Feb 70


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