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)

Electrophysiological techniques and Xenopus oocytes were used to study the expression of neurotransmitter receptors encoded by mRNAs isolated from three human glioma cell lines. Oocytes injected with mRNAs from two glioblastoma cell lines did not show electrical responses to the various neurotransmitters tested. In contrast, oocytes injected with mRNA from an astrocytoma cell line (R-111) acquired acetylcholine and glutamate receptors as well as a small number of N-methyl-D-aspartate (NMDA) receptors. Acetylcholine elicited oscillatory Cl- currents that were abolished by muscarinic antagonists. The muscarinic receptors are coupled to the inositol phosphate-Ca2+ receptor-channel coupling system. Glutamate and its analogs kainate, quisqualate, and alpha-amino-3-hydroxy-5-methyl-4-isoxazole propionic acid induced smooth currents. The non-NMDA responses were potently blocked by 6,7-dinitroquinoxaline-2,3 dione. Our results show that human astrocytoma cells contain mRNAs coding for functional acetylcholine and glutamate receptors that have properties similar to those of neurons. In contrast, human glioblastoma cells lacked those mRNAs. These differences might be useful for the development of new diagnostic and therapeutic procedures.
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PMID:mRNA coding for neurotransmitter receptors in a human astrocytoma. 134 61

The mechanisms of glutamate-induced glial swelling have been studied using an in vitro model that permits detection of cell volume changes with high accuracy. The model allows for a close control of the extracellular environment to study in isolation the effect of defined extracellular alterations occurring in brain under pathophysiologic conditions. Glutamate was applied in concentrations between 50 microM and 10 mM to either C6 glioma cells or astrocytes from primary culture. Glutamate uptake was assessed by HPLC measurements of amino acids in the extracellular medium. Glutamate at all concentrations tested caused glial swelling, which, however, was moderate, with maximal average volume increases between 5.0 +/- 1.92 and 18.38 +/- 1.6% of control at 50 microM and 5 mM glutamate, respectively. Swelling was concentration dependent and correlated with glutamate uptake. After removal of all extracellular glutamate by glial uptake, cell volume spontaneously normalized. Pretreatment of the cells for 90 min with ouabain (1 mM) to abolish the extracellular/intracellular Na+ gradient, prevented glutamate-induced swelling. It is concluded that while glial cells readily accumulate glutamate from the extracellular environment to protect neurons from excitotoxic effects, swelling results from the increase of intracellular osmotic activity due to the uptake of Na+ and glutamate.
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PMID:Mechanisms of glial swelling induced by glutamate. 136 32

Glutamate toxicity was studied in neuronal (SC9), glial (WC5), and neuroblastoma-glioma hybrid cell lines. In all three cell types, glutamate had a dual effect, depending on the concentration of glutamine in the culture medium. An expected dose-dependent cytotoxicity of the amino acid was observed when cells were cultured in medium containing the standard glutamine concentration (1-4 mM), but when the culture's glutamine content was decreased to 0.15-0.5 mM, glutamate had an apparent opposite, growth-promoting effect. The specificity of glutamate effect was indicated by the following: (a) it was stereospecific, with the L and not the D isomer being active; (b) monosodium aspartate was inactive in the presence of either high or low glutamine; and (c) monosodium glutamate and monopotassium glutamate had a similar dual effect. Furthermore, the glutamate receptor antagonist gamma-glutamylglycine blocked the amino acid cytotoxicity in a dose-dependent fashion. As glial cells are a major source of glutamine in the brain, neuronal-glial co-cultures were used to analyze the possible role of glial cells in glutamate neurotoxicity. It was found that SC9 cells were more sensitive to glutamate when co-cultured with WC5 cells. Continuous depolarization of the SC9 cells with KCl decreased cell number, but glutamate had no additive neurotoxic effect when added with KCl. We suggest that glutamine, glial cells, and neuronal activation play roles in modulating glutamate neurotoxicity, in developing as well as aged brains. It is tempting to speculate also that alterations in the glutamate/glutamine ratio under pathological conditions may take part in the etiology of some neurodegenerative diseases.
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PMID:Glutamate neurotoxicity in culture depends on the presence of glutamine: implications for the role of glial cells in normal and pathological brain development. 256 47

Glutamate dehydrogenase (GDH) was purified to homogeneity from cerebellar tissue of three normal subjects and seven patients with four distinct types of degenerative neurological disorders. Nonequilibrium pH gradient gel electrophoresis showed that the purified enzyme consists of four major isoproteins designated GDH 1, 2, 3, and 4. With one exception, the relative abundance and isoelectric points of the GDH isoproteins decrease and the molecular weights increase progressively going from isoprotein 1 to isoprotein 4. The enzyme isolated from the brain of one patient with a variant form of multiple system atrophy displayed marked reduction of GDH isoprotein 1. The Km values of the patients' GDH for alpha-ketoglutarate, glutamate, NADH, and NADPH were significantly increased as compared to GDH obtained from normal and neurologic control subjects. In addition, glutamate levels were reduced markedly in the patient's cerebellum. Pulse-chase studies have shown that both the human hepatoma HepG2 and the human glioma U373 cell lines synthesize exclusively GDH isoprotein 2. The different GDH isoproteins do not have a precursor-product relationship and may represent products of different GDH mRNA species.
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PMID:Characterization of glutamate dehydrogenase isoproteins purified from the cerebellum of normal subjects and patients with degenerative neurological disorders, and from human neoplastic cell lines. 257 5

Glutamate analogues have been used in many different experimental approaches in neurobiology. A small number of these analogues have been classified as gliotoxic. We have examined the effect of seven glutamate analogues (five gliotoxic and two neurotoxic) on the growth and viability of four human glioma cell lines, one human medulloblastoma cell line, and one human sarcoma cell line. Aminoadipic acid and homocysteic acid predominantly affected the growth of two glioma cell lines in the presence of 4 mM glutamine. Phosphonobutyric acid predominantly affected the other two glioma cell lines and the medulloblastoma cell line in the presence of 4 mM glutamine. In medium containing no glutamine, all three analogues had marked effects on all the cell lines except the sarcoma cell line. These effects were dose dependent. We postulate that these results can in part be explained on the basis of metabolic compartmentalization.
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PMID:Effect of glutamate analogues on brain tumor cell lines. 286 31

The effects of various neurotransmitters and cyclic nucleotides on 45Ca2+ efflux in cultured human glioma cells were investigated. Glutamate and glycine, but not GABA, stimulated 45Ca2+ release from the cells. Stimulation of beta-adrenergic receptors but not alpha-adrenergic receptors also increased 45Ca2+ efflux. Cholinergic receptor stimulation by carbachol had the same effect. The stimulatory effect of carbachol was abolished in the presence of either atropine or hexamethonium. C-AMP and c-GMP increased the 45Ca2+ efflux, suggesting that these agents are involved in the transmitter-stimulated release of 45Ca2+ from the cell. Kinetic analysis of the efflux revealed four calcium compartments. The carbachol-stimulated efflux represented a net release of calcium and could be ascribed to the slowest compartment. The physiological role of the transmitter-stimulated calcium release is discussed in terms of calcium-regulated stimulus-response coupling in glial-neural interaction during excitation.
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PMID:Effects of neurotransmitters on calcium efflux from cultured glioma cells. 611 61

In the present study, we have attempted to clarify whether neuroblastoma glioma hybrid NG 108-15 cells (NG cells) possess the NMDA receptor complex using [45Ca2+]influx and [3H]MK-801 binding as functional measures. Glutamate and NMDA dose-dependently increased [45Ca2+]influx and these increases were further enhanced by glycine. Scatchard analysis revealed the presence of a high-affinity binding site for [3H]MK-801 with a KD of 18.8 nM and a Bmax of 0.328 pmol/mg protein. This [3H]MK-801 binding was also increased by NMDA in a dose-dependent manner and this increase was further enhanced by glycine. Both ketamine and MK-801 inhibited glutamate- and NMDA-induced [45Ca2+]influx as well as the increase of [3H]MK-801 binding in a dose-dependent manner. Similarly, Mg2+ and Zn2+ dose-dependently reduced both glutamate-induced [45Ca2+]influx and [3H]MK-801 binding. Spermine, one of the polyamines, showed a biphasic stimulatory effects on glutamate-induced [45Ca2+]influx and [3H]MK-801 binding. These results indicate that NG cells possess a pharmacologically distinct NMDA receptor complex and suggest that these cells may be useful for the analyses on pharmacological and biochemical characteristics of the NMDA receptor complex.
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PMID:Presence of N-methyl-D-aspartate (NMDA) receptors in neuroblastoma x glioma hybrid NG108-15 cells-analysis using [45Ca2+]influx and [3H]MK-801 binding as functional measures. 791

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

Several subtypes of sodium-dependent high affinity (SDHA) glutamate transporters have been pharmacologically differentiated in brain tissue. Recently, four distinct cDNAs (EAAC1, GLT1, GLAST, and EAAT4) encoding Na+-dependent glutamate transporters have been isolated, but the properties of some of these transporters do not fully match the properties of transport observed in brain tissue or astrocyte-enriched cultures. The purpose of the current investigation was to determine whether the pharmacological properties of EAAC1 parallel those observed in cortical or cerebellar synaptosomes, C6 glioma, or primary astrocyte-enriched cultures. EAAC1 cRNA was expressed in Xenopus oocytes, an expression system with no detectable endogenous Na+-dependent glutamate transport activity. EAAC1-mediated glutamate transport was >98% Na+ dependent, and the transport was saturable and consistent with a single site. Glutamate transport activates in EAAC1-injected oocytes and C6 glioma have similar Km values for glutamate (Km = 15-24 microM) and Na+ (apparent Km = 35-50mM), and these values markedly differ from those observed in rat synaptosomes (glutamate, Km = 1-5 microM; Na+, Km = 13-20 mM). Several excitatory amino acid analogues were tested as inhibitors of L-[3H] glutamate transport in oocytes expressing EAAC1 cRNA. The potencies of several compounds for inhibition of EAAC1-mediated transport differed from those previously observed in cerebellar synaptosomes and astrocyte-enriched cultures. Although EAAC1-mediated transport and cortical synaptosomal transport have similar pharmacological profiles, five excitatory amino acid analogues were > or= 3-fold more potent as inhibitors of transport into cortical synaptosomes than of transport into EAAC1-injected oocytes. For example, L-trans-pyrrolidine-2,4-dicarboxylate was approximately 5-fold more potent in cortical synaptosomes, and dihydrokainate was approximately 10-fold more potent in cortical synaptosomes than in EAAC1-injected oocytes. In contrast, all of the compounds examined inhibit transport observed in C6 glioma wtih potencies similar to that observed in oocytes injected with EAAC1 cRNA. Consistent with these data, C6 glioma expressed EAAC1- but not GLT1- and GLAST-like immunoreactivity. Although this immunoreactivity migrated as proteins of slightly different molecular masses in each system, treatment with N-glycosidase F shifted all proteins to a molecular mass consistent with that predicted from the cDNA sequence. In cortical synaptosomes, EAAC1-, GLT1-, and GLAST-like immunoreactives were apparent. These results indicate that (i) EAAC1 but not GLAST or GLT1 transporters are expressed in C6 glioma, (ii) synaptosomes contain a heterogeneous population of transporters, (iii) EAAC1 does not account for the pharmacology previously observed in cortical synaptosomes, and (iv) based on the pharmacology and tissue distribution of EAAC1, GLT1, GLAST, and EAAT4, it appears that there are additional glutamate transporter subtypes.
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PMID:Comparison of Na+-dependent glutamate transport activity in synaptosomes, C6 glioma, and Xenopus oocytes expressing excitatory amino acid carrier 1 (EAAC1). 864 86

Glutamine synthesis, the major pathway of ammonia detoxification, and the intracellular concentration of organic osmolytes in primary astrocytes and F98 glioma cells were investigated with multinuclear magnetic resonance spectroscopy. Acute exposure to ammonia (3 h incubation with NH4Cl) raised the concentration of glutamine and other amino acids, such as glutamate and aspartate, and decreased myo-inositol, hypotaurine, and taurine concentrations. The loss of these osmolytes was partially reversed by co-treatment with the glutamine synthetase inhibitor, methionine sulphoximine. Glutamate, the precursor of glutamine, is provided by stimulated anaplerotic flux via pyruvate carboxylase and glutamate dehydrogenase activity. Thus, the glutamine increase and myo-inositol decrease observed by in vivo magnetic resonance spectroscopy on patients with hepatic encephalopathy may be due to the disturbed osmoregulation in astrocytes caused by accumulation of glutamine and the subsequent loss of organic osmolytes.
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PMID:Multinuclear NMR spectroscopy studies on NH4Cl-induced metabolic alterations and detoxification processes in primary astrocytes and glioma cells. 977 80

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