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)

Exposure of rat glioma C6 cells to either isoproterenol or 12-O-tetradecanoylphorbol 13-acetate (TPA) resulted in desensitization of isoproterenol-stimulated adenylate cyclase activity. After either treatment, the affinity of beta-receptors for isoproterenol was reduced. Thus, desensitization by TPA or isoproterenol appeared to involve an "uncoupling" of the beta-receptor from the stimulatory regulatory component (Ns) of adenylate cyclase. The activity of Ns, assayed by reconstitution of S49 cyc- adenylate cyclase activity, was found to be unchanged after desensitization. The activity of beta-receptors was measured by inactivating Ns and the catalytic component of adenylate cyclase in C6 membranes and fusing them with membranes lacking beta-receptors. Receptors from isoproterenol-treated C6 cells were less active in "coupling" to the foreign adenylate cyclase than receptors from untreated cells, whereas receptors from TPA-treated cells were fully active. This unexpected latter result was explored further. Lysates from C6 cells were centrifuged on linear sucrose density gradients and the gradient fractions assayed for beta-receptor binding activity. Most of the receptors were recovered in a "heavy" plasma membrane peak but some receptors also appeared in a "light" membrane peak. After treatment of the cells with isoproterenol or TPA, the proportion of receptors in the light peak increased. Prior treatment of the cells with concanavalin A prevented the increase in light receptors caused by isoproterenol or TPA. In addition, the concanavalin A treatment prevented the desensitization of adenylate cyclase caused by TPA but not that caused by isoproterenol. Finally, desensitization of adenylate cyclase was reversed by polyethylene glycol-induced fusion of membranes from cells treated with TPA but not isoproterenol. We conclude that beta-agonists and phorbol esters desensitize adenylate cyclase by distinct mechanisms. Agonists cause a reduction in the functional activity of the beta-receptors followed by a segregation of the receptors into a light membrane fraction devoid of Ns. Phorbol esters do not alter the activity of the receptors but do cause their segregation.
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PMID:Phorbol esters and beta-adrenergic agonists mediate desensitization of adenylate cyclase in rat glioma C6 cells by distinct mechanisms. 286 42

Differences between the influences of phorbol esters (such as 4 beta-12-O-tetradecanoylphorbol 13-acetate) and of fatty acids (such as oleic acid) on the synthesis and turnover of phosphatidylcholine (PtdCho) and other phospholipids have been studied in glioma (C6), neuroblastoma (N1E-115), and hybrid (NG108-15) cells in culture using [methyl-3H]choline, [32P]Pi, [1,2-14C]ethanolamine, or 1-14C-labeled fatty acids as lipid precursors. 100-500 microM oleic acid stimulated PtdCho synthesis 3- to 5-fold in all three cell lines, but had little influence on chase of choline label following a 24-h pulse. Phorbol ester (50-200 nM) stimulated PtdCho synthesis 1.5- to 3-fold in C6 cells, was without effect in N1E-115 cells, and had intermediate effects on NG108-15 cells. Phorbol ester stimulated both uptake of extracellular choline and synthesis of PtdCho, whereas fatty acid stimulated only synthesis. Release of radioactivity from 24-h pulse-labeled PtdCho to the medium was enhanced by phorbol ester in C6 cells. Incorporation of [32P]Pi, primarily into PtdCho, was stimulated, whereas utilization of [1,2-14C]ethanolamine or 1-14C-fatty acid was little altered by phorbol ester. C6 cells "down-regulated" with phorbol ester lost the stimulatory response of subsequent treatment with phorbol esters on PtdCho synthesis, but the response to fatty acid was enhanced. Fatty acid had little influence on the relative binding of phorbol ester or "translocation" of phorbol ester binding sites. Accordingly, metabolism of phospholipids in these cultured cells of neural origin is markedly influenced by cell type, phospholipid class, condition of incubation medium, and nature of stimulator. Phorbol esters and fatty acids appear to enhance phospholipid synthesis and turnover by distinct intracellular mechanisms.
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PMID:Alterations of phospholipid metabolism by phorbol esters and fatty acids occur by different intracellular mechanisms in cultured glioma, neuroblastoma, and hybrid cells. 291 28

I examined whether the phorbol ester-mediated inhibition of glycerol 3-phosphate dehydrogenase (GPDH) induction could be mimicked by raising the cellular diacylglycerol levels. Phorbol ester tumor promoters and diacylglycerols activate protein kinase C. An increase in radiolabeled diacylglycerol levels in C6 rat glioma cells was observed when cells were prelabeled overnight with [3H]arachidonic acid and treated with either phospholipase C (Clostridium perfringens) or 2-bromooctanoate. The increase was dose dependent. The diacylglycerols competed with [20-3H]phorbol 12,13-dibutyrate in binding to the phorbol ester receptor. A Scatchard analysis of the binding of cells treated with 0.1 unit/ml of phospholipase C demonstrated that the inhibition was mainly due to a decrease in binding affinity and not in the total number of binding sites. 2-Bromooctanoate and phospholipase C, but not the synthetic diacylglycerol 1-oleoyl 2-acetyl glycerol, inhibited the glucocorticoid induction of GPDH levels. Boiled phospholipase C, phospholipase A2, or phospholipase D was ineffective in inhibiting induction, a result suggesting that the inhibition was not due to nonspecific membrane perturbation. Thus, inhibition of the glucocorticoid-mediated increase in GPDH induction is most likely mediated by protein kinase C, and not by an alternate phorbol ester receptor.
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PMID:Increased diacylglycerol levels inhibit [20-3H]phorbol 12,13-dibutyrate binding and the glucocorticoid-mediated increase in glycerol phosphate phosphate dehydrogenase levels in C6 rat glioma cells. 346 28

The protein kinase C (PKC) alpha, beta and epsilon isoforms have distinct nuclear localizations in neuroblastoma x glioma hybrid cells NG 108-15. We found by immunoblotting that PKC alpha, beta II, delta and epsilon are the predominant isoforms in these cells. In contrast to other neuronal cell lines, none of these isoforms is down-regulated during differentiation. Confocal immunofluorescence microscopy revealed that in undifferentiated cells PKC alpha is located in the cytoplasm and in the nucleus excluding nucleoli. In differentiated cells PKC alpha was almost exclusively located in the cytoplasm. Stimulation of the cells with phorbol ester resulted in translocation to the plasma membrane. PKC beta II was not detectable in the nuclei. PKC delta was found in the nucleoli and in the cytoplasm, in differentiated cells particularly in the neurites. Phorbol ester failed to induce a translocation to other compartments. PKC epsilon was localized with the nuclear-pore complexes at the nuclear envelope. In differentiated cells after stimulation with phorbol ester, partial translocation to the plasma membrane was observed.
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PMID:Differential nuclear localization of protein kinase C isoforms in neuroblastoma x glioma hybrid cells. 802 Apr 72

Phorbol ester-induced reorganization of the actin cytoskeleton was investigated in C6 rat glioma cells. Observations by fluorescence microscopy and photoelectron microscopy indicated that pretreatment with the transition metal chelator N,N,N',N'-tetrakis(2-pyridylmethyl)ethylenediamine (TPEN) for 1-2 h at 50 microM reduced the sensitivity of the actin cytoskeleton to disruption by the subsequent addition of 200 nM phorbol myristate acetate (PMA). The protective effect of TPEN was eliminated by adding back Zn2+ prior to PMA addition, implicating chelation of metal ions as the mechanism of action of TPEN. C6 cells exposed to PMA experience potent activation of protein kinase C (PKC) and substantial redistribution of the kinase from a soluble to a particulate cellular fraction (translocation). TPEN pretreatment did not block PKC translocation in PMA-exposed cells. By two-dimensional gel analysis, TPEN also did not reduce, but rather slightly increased, the PMA-stimulated phosphorylation of the acidic 80 kDa endogenous PKC substrate, as well as two other proteins at 18 kDa and 50 kDa. In contrast, TPEN significantly suppressed phosphorylation of a 20 kDa protein, both in cells treated with TPEN only and in TPEN-pretreated PMA-exposed cells. The results indicate that the ability of TPEN to protect against PKC-mediated actin cytoskeletal disruption is not due to either a block of PKC translocation or to general inhibition of PKC activity. Rather, the action of TPEN is more selective and probably involves chelation of Zn2+ at a critical Zn(2+)-dependent phosphorylation step downstream from the initial tumor promoter-induced effects on PKC.
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PMID:Transition metal chelator TPEN counteracts phorbol ester-induced actin cytoskeletal disruption in C6 rat glioma cells without inhibiting activation or translocation of protein kinase C. 810 70

High affinity "peripheral-type" benzodiazepine binding sites were detected in an interleukin-1 (IL-1) responsive murine thymoma cell line EL4.NOB-1. Exposure of these cells to IL-1 over a period of at least 24 hr resulted in down-regulation of the binding sites. This effect was inhibited by the IL-1 receptor antagonist (IL-1RA) which in these cells inhibits IL-1 binding to the type I IL-1 receptor. Phorbol myristate acetate (PMA), another activator of EL4.NOB-1 cells, had an opposite effect to IL-1 in that it increased binding site expression dramatically suggesting different mechanisms of action for these two effectors. IL-1 produced a similar response in the rat glioma cell line C6 whereas PMA was ineffective. Such modulation of the peripheral-type benzodiazepine receptor may provide an insight into its physiological role and its possible participation in IL-1 actions in different cells.
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PMID:Interleukin-1 and phorbol myristate acetate modulate the peripheral-type benzodiazepine receptor in lymphocytes and glial cells. 839 35

The major component of amyloid plaque cores and cerebrovascular amyloid deposits found in Alzheimer disease is the beta/A4 peptide, which is derived from the Alzheimer amyloid protein precursor (APP). Recent evidence suggests that abnormalities in beta/A4 peptide production or beta/A4 peptide aggregation may underlie cerebral amyloidosis. In the present study, treatment of cells with phorbol dibutyrate, which activates protein kinase C, and/or okadaic acid, which inhibits protein phosphatases 1 and 2A, reduced beta/A4 peptide production by 50-80%. These effects were observed with APP695 and APP751 expressed in stably transfected CHO cells, as well as with endogenous APP in human glioma (Hs 683) cells. Phorbol dibutyrate also decreased beta/A4 peptide production in cells expressing various mutant forms of APP associated with familial Alzheimer disease, one of which was reported to manifest greatly increased beta/A4 peptide production in cultured cells. Mastoparan and mastoparan X, compounds which can activate phospholipase C and hence protein kinase C, also decreased beta/A4 peptide production in CHO cells stably transfected with APP695. A model is presented in which decreases in beta/A4 peptide production can be achieved by accelerating the metabolism of APP through a nonamyloidgenic secretory pathway.
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PMID:Protein phosphorylation inhibits production of Alzheimer amyloid beta/A4 peptide. 841 76

Phorbol myristate acetate (PMA), a protein kinase C (PKC) activator significantly decreased in a time- and dose-dependent manner taurine uptake by rat astroglial but not neuronal cells. The PMA-induced inhibition of taurine uptake by rat astrocytes was prevented by chelerythrine, a potent and selective inhibitor of PKC. The differential effect of PMA on rat neuronal and astroglial taurine transport was also obtained with the protein phosphatase inhibitor okadaic acid. This was not only the feature of rat cells since the same differential effects were obtained with human glioma GL15 and human neuroblastoma IMR32 cell lines. The results suggest that the neuronal and astroglial taurine transporter may be structurally different.
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PMID:Activation of protein kinase C down-regulates glial but not neuronal taurine uptake. 884 83

We previously showed that the aggregated form of Hsp27 in cultured cells becomes dissociated as a result of phosphorylation with various types of stress. In order to clarify the signal transduction cascade involved, the effects of various inhibitors of protein kinases and dithiothreitol on the dissociation of Hsp27 were here examined by means of an immunoassay after fractionation of cell extracts by sucrose density gradient centrifugation. The dissociation of Hsp27 induced by exposure of U251 MG human glioma cells to metals (NaAsO2 and CdCl2), hypertonic stress (sorbitol and NaCI), or anisomycin, an activator of p38 mitogen-activated protein (MAP) kinase, was completely suppressed by the presence of SB 203580 or PD 169316, inhibitors of p38 MAP kinase, but not by PD 98059 and Uo 126, inhibitors of MAP kinase kinase (MEK), nor by staurosporine, Go 6983, and bisindolylmaleimide I, inhibitors of protein kinase C. Phorbol ester (PMA)-induced dissociation of Hsp27 was completely suppressed by staurosporine, Go 6983, or bisindolylmaleimide I and partially suppressed by SB 203580, or PD 169316 but not by PD 98059 or Uo 126, indicating mediation by 2 cascades. The presence of 1 mM dithiothreitol in the culture medium during exposure to chemicals suppressed the dissociation of Hsp27 induced by arsenite and CdCl2 but not by other chemicals. These results suggest that the phosphorylation of Hsp27 is catalyzed by 2 protein kinases, p38 MAP kinase-activated protein (MAPKAP) kinase-2/3 and protein kinase C. In addition, metal-induced signals are sensitive to reducing power.
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PMID:Protein kinase inhibitors can suppress stress-induced dissociation of Hsp27. 1152 38

The neuronal glutamate transporter, EAAC1, appears to both limit spillover between excitatory synapses and provide precursor for the synthesis of the inhibitory neurotransmitter, gamma-aminobutyric acid. There is evidence for a large intracellular pool of EAAC1 from which transporter is redistributed to the cell surface following activation of protein kinase C (PKC) or platelet-derived growth factor (PDGF) receptor by seemingly independent pathways. A variety of biotinylation strategies were employed to measure trafficking of EAAC1 to and from the plasma membrane and to examine the effects of phorbol ester and PDGF on these events. Biotinylation of cell surface protein under trafficking-permissive conditions (37 degrees C) resulted in a 2-fold increase in the amount of biotinylated EAAC1 within 15 min in C6 glioma and in primary neuronal cultures, suggesting that EAAC1 has a half-life of approximately 5-7 min for residence at the plasma membrane. Both phorbol ester and PDGF increased the amount of transporter labeled under these conditions. Using a reversible biotinylation strategy, a similarly rapid internalization of EAAC1 was observed in C6 glioma. Phorbol ester, but not PDGF, blocked this measure of internalization. Incubation at 18 degrees C, which blocks some forms of intracellular membrane trafficking, inhibited PKC- and PDGF-dependent redistribution of EAAC1 but had no effect on basal trafficking of EAAC1. These studies suggest that both PKC and PDGF accelerate delivery of EAAC1 to the cell surface and that PKC has an additional effect on endocytosis. The data also suggest that basal and regulated pools of EAAC1 exist in distinct compartments.
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PMID:Rapid trafficking of the neuronal glutamate transporter, EAAC1: evidence for distinct trafficking pathways differentially regulated by protein kinase C and platelet-derived growth factor. 1519 83


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