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)

Modes of Ca2+ activation by bradykinin, serotonin, and ATP and the possible receptor cross-talk were investigated in mouse neuroblastoma x rat glioma hybrid cells (108CC15) by monitoring fura-2 fluorescence in single cells. A transient rise of cytosolic Ca2+ activity was induced by short pulses of the hormones. Brief exposure of cells to ionomycin, which depletes intracellular Ca2+ stores, reduced the size of subsequent responses to bradykinin or ATP, but not to serotonin. Superfusion of the cells with Ca(2+)-free medium abolished the Ca2+ response to serotonin, whereas the responses to bradykinin and to ATP were only slightly reduced. This indicates that ATP, like bradykinin, induces the release of Ca2+ from intracellular stores. Serotonin, in contrast, activates Ca2+ entry from the extracellular space. To investigate whether ATP releases Ca2+ from the same stores as bradykinin, we examined the interaction of the hormones by applying them consecutively. When ATP was applied after bradykinin, the nucleotide did not evoke any response, irrespective of the presence or absence of extracellular Ca2+. The application of ATP before that of bradykinin reduced the size of a following bradykinin-induced Ca2+ response in Ca(2+)-free medium, but not in Ca(2+)-containing medium. This suggests that bradykinin may interact with the ATP-activated mechanism by cross-desensitization. Possibly, bradykinin receptors are coupled to additional Ca2+ stores not accessible to ATP that are refilled by extracellular Ca2+. Cyclic AMP and cyclic GMP apparently do not affect the Ca2+ responses to bradykinin and serotonin, as shown by the lack of influence of preincubation of the cells with forskolin or sodium nitroprusside.
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PMID:Cross-talk of the receptors for bradykinin, serotonin, and ATP shown by single cell Ca2+ responses indicating different modes of Ca2+ activation in a neuroblastoma x glioma hybrid cell line. 790 21

The multidrug-resistance phenotype in human tumors is partly associated with over-expression of the 170 kDa-P-glycoprotein encoded by the multidrug-resistance-1 (MDR1) gene. Another related, but non-P-glycoprotein, multidrug-resistance-associated protein (MRP) gene encodes a 190 kDa-membrane ATP-binding protein. Glioblastoma multiforme is a highly malignant primary neoplasm of the central nervous system which is refractory to anti-cancer chemotherapy, but the mechanism underlying this drug resistance is unknown. Out of glioma cell lines, 2, namely IN500 and T98G, which had elevated MRP mRNA levels, showed the highest resistance to multiple anti-cancer agents such as etoposide, vincristine and adriamycin, and decreased intracellular accumulation of etoposide. In the remaining 5 cell lines, various degrees of sensitivity to adriamycin and etoposide appeared to correlate with their respective MRP mRNA levels. Our study proposes that MRP may be involved in spontaneous multidrug resistance in human gliomas.
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PMID:Possible involvement of multidrug-resistance-associated protein (MRP) gene expression in spontaneous drug resistance to vincristine, etoposide and adriamycin in human glioma cells. 792 79

Oxygen radicals induce cytotoxicity via a variety of mechanisms, including DNA damage, lipid peroxidation and protein oxidation. Here, we explore the use of a polyethylene glycol (PEG)-stabilised enzyme capable of producing reactive oxygen species (ROS), glucose oxidase (GO), for the purpose of harnessing the cytotoxic potential of ROS for treating solid tumours. PEG-GO (200 U), administered by two intratumoral injections 3 h apart, produced a significant growth delay in subcutaneous rat 9L gliomas as compared with control animals receiving heat-denatured PEG-GO. Rats were protected from systemic toxicity by subsequent i.v. administration of PEG-superoxide dismutase (PEG-SOD) and PEG-catalase. In vivo tumour metabolic changes, monitored using 31P magnetic resonance spectroscopy (31P-MRS) 6 h following initial administration of PEG-GO, revealed a 96 +/- 2% reduction in the ATP/Pi ratio and a 0.72 +/- 0.10 unit decline in intracellular pH. A 3-fold sensitisation of 9L glioma cells in vitro to hydrogen peroxide could be achieved by a 24 h preincubation with buthionine sulphoximine (BSO). This study suggests that oxidation therapy, the use of an intratumoral ROS-generating enzyme system for the treatment of solid tumours, is a promising area which warrants further exploration.
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PMID:Oxidation therapy: the use of a reactive oxygen species-generating enzyme system for tumour treatment. 798 Oct 65

In C6 glioma cells, extracellular ATP and other nucleotide analogs stimulated phosphoinositide (PI) breakdown and inhibited isoproterenol-induced cyclic AMP (cAMP) accumulation. The rank orders of potencies of 15 nucleotide analogs for both responses were clearly different. ATP and adenosine 5'-O-(3-thiotriphosphate) are the most potent agonists for stimulating PI hydrolysis; 2-methylthio-ATP (2-MeSATP) is the most potent agonist for inhibiting cAMP accumulation. P1-mediated responses of PI turnover and cAMP formation are not present in C6 glioma cells. Pertussis toxin (PTX) blocked the nucleotide-induced inhibition of cAMP accumulation but exerted no effect on inositol phosphate formation. Short-term treatment with phorbol 12-myristate 13-acetate inhibited both signal transduction pathways. The effects of three P2 purinergic antagonists, suramin, reactive blue and 4,4'-diisothiocyanatostilbene sulfonic acid (DIDS), on ATP- and 2-MeSATP-induced stimulation of PI turnover and inhibition of cAMP formation, respectively, were compared. For stimulating PI turnover, suramin is a competitive antagonist (pA2, 4.4); reactive blue and DIDS are noncompetitive antagonists at 30 microM and 100 microM, respectively. For the inhibition of cAMP formation, reactive blue and DIDS competitively antagonized the response of 2-MeSATP (pA2 values, 6.3 for reactive blue and 5.7 for DIDS); suramin was only slightly effective at 100 microM. It was concluded that the nucleotide receptor is linked to phospholipase C by a PTX-insensitive Gp protein and the P2Y receptor is linked to adenylyl cyclase by a PTX-sensitive Gi protein. Suramin is a competitive antagonist for the nucleotide receptor; reactive blue and DIDS are more selective antagonists for the P2Y receptor.
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PMID:Different signal transduction pathways are coupled to the nucleotide receptor and the P2Y receptor in C6 glioma cells. 801 79

Using the patch clamp technique, we have characterized a small conductance, calcium-activated potassium (SK) channel in the C6 glioma cell line. Elevation of cytosolic Ca2+ concentration ([Ca2+]i) by applications of serotonin or ionomycin induced bursts of channel opening recorded in the cell-attached configuration. These channels underlie the serotonin-induced, [Ca2+]i-activated whole-cell K+ conductance described previously. [Ca2+]i directly activated SK channels in inside-out patches with a biphasic concentration dependence. Submicromolar [Ca2+]i induced bursts of channel openings with a unitary conductance of about 25 pS, similar to that of the serotonin-induced channels. Supramicromolar [Ca2+]i caused prolonged openings with a unitary conductance of about 35 pS, resulting in a pronounced increase of the average current in patches exposed to [Ca2+]i above 100 microM. The two modes of opening reflect the activity of the same SK channel. The channel conductance depended on external K+ concentration with KD of 5 mM. The channel was slightly permeable to cations other than K+, with a permeability ratio for K+:Ca2+:Na+ of 1:0.040:0.030, respectively. ATP was required to maintain channel activity in outside-out patches but was not essential in inside-out patches. The modulations of SK channels in C6 cells by components in their microenvironment may be related to the role of glial cells in controlling the extracellular milieu in the CNS.
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PMID:Modulation of small conductance calcium-activated potassium channels in C6 glioma cells. 805 94

Hypoxic effects on glutamate uptake and ATP content in glial cells were investigated by using cultured C6 glioma cells. Mild regressive changes were found depending on the duration of the hypoxic insult, but necrosis or detachment of the cells from the substratum was rarely observed. Glutamate uptake was relatively well preserved after a short hypoxic insult, while a marked decrease in glutamate uptake was observed after hypoxia of long duration. The uptake of sucrose was reduced in a similar pattern to glutamate uptake. Hypoxic insult resulted in a significant reduction of the ATP content in glial cells. Therefore, the decrease in glutamate uptake by glial cells under hypoxia is likely to be due to ATP dependency, and not to the failure of a specific glutamate uptake system, but the failure of a general uptake of the glial cells owing to the energy-dependent membrane dysfunction by ATP depletion. These findings suggest that there are phased changes of astrocytic functions in a hypoxic condition, a preservative phase in the initial stages and then a dysfunctional phase in the later stages of hypoxia.
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PMID:Hypoxic effects on glutamate uptake in cultured glial cells. 809 65

Two weeks after the inoculation of 1.5 x 10(5) 9L glioma cells into the rat brain, the uptake of radiolabelled drugs into the brain and the experimental 9L glioma during the first cerebral circulation was measured with a liquid scintillation counter and analyzed by the method of Oldendorf (1970). The expression of P-glycoprotein, which is known to be associated with the efflux of drugs, was also studied, using anti-P-glycoprotein monoclonal antibody, C-219. Furthermore, the ultrastructure of brain capillaries, tumor vessels, and glioma cells was studied by conventional and immunoelectron microscopy. Sucrose (control), the transport of which through the blood-brain barrier is known to be negligible, accumulated to fivefold higher levels in the tumor than in normal brain. Ranimustine (MCNU), 5-fluorouracil (5-FU), and doxorubicin showed little accumulation in the normal brain, whereas nimustine (ACNU) showed an increased accumulation. MCNU and doxorubicin showed negligible accumulation in the glioma cells despite diffusion into the tumor interstitial space. In contrast, ACNU and 5-FU showed an increased accumulation in tumor cells. The accumulation of 5-FU in the cultured 9L glioma cells was decreased by ATP inhibitors or by low temperature. Although both brain capillary endothelial cells and glioma cell membrane were immunohistochemically positive for P-glycoprotein, the tumor vasculature showed low expression of P-glycoprotein. The endothelial cells of tumor vessels ultrastructurally showed increased fenestrations, swelling, and disrupted junctions. Accordingly, it is suggested that hydrophobic drugs such as doxorubicin, being pumped out by P-glycoprotein, do not accumulate in 9L glioma cells as do other lipophilic drugs such as ACNU, or drugs such as 5-FU, which accumulate by a carrier-mediated mechanism.
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PMID:Uptake of drugs and expression of P-glycoprotein in the rat 9L glioma. 810 17

The effect of inhibited bioenergetics and ATP depletion on membrane composition and fluidity was examined in cultured neuroblastoma-glioma hybrid NG108-15 cells. Sodium cyanide (CN) and 2-deoxyglucose (2-DG) were used to block, oxidative phosphorylation and anaerobic glycolysis, respectively. Endoplasmic reticulum (ER) Ca(2+)-pump activity measured by 45Ca2+ uptake was > 92% inhibited in intact cells incubated with CN (1 mM) and 2-DG (20 mM) for 30 min. In addition, exposure of cells to CN and 2-DG caused a 134% increased release of isotopically labeled arachidonic acid (3H-AA) or arachidonate-derived metabolites from membranes. Removal of Ca2+ from the incubation medium ablated the CN/2-DG induced release of 3H-AA or its metabolites. Membrane fluidity of intact cells was measured by electron spin resonance spectroscopy using the spin label 12-doxyl stearic acid. The mean rotational correlation time (tau c) of the spin label increased 49% in CN/2-DG exposed cells compared to controls, indicating a decrease in membrane fluidity. These results show that depletion of cellular ATP results in inhibition of the ER Ca(2+)-pump, loss of AA from membranes, and decreased membrane fluidity. We propose that impaired bioenergetics can increase intracellular Ca2+ as a result of Ca(2+)-pump inhibition and thereby activate Ca(2+)-dependent phospholipases causing membrane effects. Since neurons derive energy predominantly from oxidative metabolism, ATP depletion during brain hypoxia may initiate a similar cytotoxic mechanism.
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PMID:Inhibition of bioenergetics alters intracellular calcium, membrane composition, and fluidity in a neuronal cell line. 813 64

We have found that the small stress protein, hsp27, exists in extracts of U251 MG human glioma cells in two forms: a large or aggregated form (L-hsp27, 300-400 kDa) and a small or dissociated form (S-hsp27, < 70 kDa), as indicated by centrifugation on sucrose density gradients. Dissociation of L-hsp27 to S-hsp27 was enhanced by incubation of cells with phorbol 12-myristate-13 acetate, interleukin-1 alpha, tumor necrosis factor alpha, or okadaic acid, all of which are known to enhance or mimic the effects of phosphorylation of hsp27 without stimulation of its synthesis. Exposure of cells to chemical stressors, namely, NaAsO2 and CdCl2, also enhanced the dissociation of L-hsp27. hsp27 that had been labeled with [32P]H3PO4 in U251 MG cells was detected mostly in fractions that contained S-hsp27, and the incorporation of radioactivity to S-hsp27 was enhanced under conditions that stimulated the dissociation of L-hsp27. L-hsp27 present in the (NH4)2SO4 fraction (0-50% saturation) of cell extracts were dissociated to 32P-labeled hsp27 when incubated in the presence of [gamma-32P]ATP and Mg2+. These results indicate that the molecular configuration of hsp27 in cells is determined in part by phosphorylation and dephosphorylation of this protein by protein kinase(s) and phosphatase(s) and, moreover, that the rapid dissociation of the aggregated form of hsp27 by phosphorylation might be involved in a cellular defense mechanism for protection against stress.
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PMID:Dissociation as a result of phosphorylation of an aggregated form of the small stress protein, hsp27. 815 58

Incubation of C6-2B rat glioma cells with UDP or UTP resulted in a time- and concentration-dependent increase in the accumulation of inositol phosphates. In contrast, ATP, ADP, and analogs of these nucleotides known to be effective agonists at P2U-, P2X-, P2Y-, P2T-, and P2Z-purinergic receptors all had no effect on inositol phosphate levels in C6-2B cells. Pyrimidine nucleotides stimulated inositol phosphate accumulation with an order of potency of UDP > 5-BrUTP > UTP > dTDP > UDP glucose. K0.5 values for UDP, 5-BrUTP, and UTP were 2.3 +/- 0.5, 9 +/- 3, and 57 +/- 10 microM, respectively. A similar uridine nucleotide selectivity was observed for arachidonic acid release presumably occurring as a consequence of activation of phospholipase A2. Cross-desensitization and additivity experiments indicated that UDP and UTP interact with the same population of receptors. The effect of uridine nucleotides on inositol phosphate accumulation was inhibited markedly by pretreatment of cells with pertussis toxin. UDP also caused a guanine nucleotide-dependent increase in inositol lipid hydrolysis in streptolysin-O-permeabilized cells. Taken together these results describe the existence of a novel uridine nucleotide receptor that is not activated by adenine nucleotides. This receptor is pharmacologically distinct from the previously described P2U- and other P2-purinergic receptors, and likely is a member of a new class of receptors for extracellular nucleotides.
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PMID:Identification of a uridine nucleotide-selective G-protein-linked receptor that activates phospholipase C. 816 81

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