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 transport and metabolism of glucose was examined in monolayers of C-6 glioma cells. 1) Glucose transport appeared to have both a low (Km = 7.74 mM) and a high (Km = 1.16 mM) affinity site in C-6cells; whereas 2-deoxyglucose had only one (Km = 3.7 mM). 2) A large portion of the accumulated glucose was rapidly metabolized to the two glycolytic end products, lactate and pyruvate, and then extruded into the medium. The temperature-dependent efflux of lactate and pyruvate was linear up to 2 hrs with 6 to 10 times more lactate being extruded into the medium than pyruvate. 3) The efflux of lactate and pyruvate increased with increasing extracellular (medium) pH. The presence of 5 percent CO2 not only inhibited the acid efflux but also inhibited the short-term uptake of glucose. The CO2 effect was attributed to a lowering of the medium pH since bicarbonate alone either increased or did not inhibit efflux. 4) Valinomycin increased the levels of cellular lactate but not those of pyruvate by almost three-fold. Lactate efflux was stimulated while that of pyruvate was inhibited. The addition of 5 percent CO2 increased the cellular levels of both lactate and pyruvate, but unlike valinomycin decreased the acid efflux. Idoacetate inhibited the acid efflux by 50 percent suggesting that glycolysis is necessary for efflux.
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PMID:Glycolytic metabolism in cultured cells of the nervous system. I. Glucose transport and metabolism in the C-6 glioma cell line. 24 29

The key enzymes of oxidative phosphorylation and glycolysis were evaluated histochemically in rat-implanted C6 gliomas using spot densitometry. Hexokinase, the initial enzyme for the glycolysis pathway, was 40% higher within tumour than the contralateral cerebral cortex. A similar increase within tumours for 2-deoxyglucose was observed by autoradiography. Glucose-6-phosphate dehydrogenase (G6PDH), which is the first enzyme in the pentose phosphate pathway, shunting glucose towards nucleic acid synthesis, was more than 300% higher in gliomas compared with the normal cortex. In contrast, enzymes in the energy producing tricarboxylic acid cycle (succinate-, isocitrate-, and malate-dehydrogenase) and in the electron-transport system (cytochrome c oxidase) were significantly reduced in tumour (58% less than the contralateral cortex). Lactate dehydrogenase activity, which converts pyruvate to lactate, was 50% higher within tumour. Significant reductions of enzymatic activities also occurred in non-neoplastic tissue in ipsilateral hemisphere, with larger tumours. Some enzymes showed heterogeneous activity within tumours, especially G6PDH. These results suggest that: (1) energy production is more dependent on lactate production than on oxidative phosphorylation in C6 glioma, and (2) a significant part of the increased glucose utilization in glioma cells is due to increased activity of the pentose phosphate shunt for increased DNA synthesis, and not energy production.
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PMID:Histochemical evaluation of energy metabolism in rat glioma. 136 Jun 22

Brain tumor metabolism was studied with hydrogen-1 magnetic resonance spectroscopy and positron emission tomography with fluorine-18 fluorodeoxyglucose in 50 patients. N-acetylaspartate (NAA) was generally decreased in tumors and radiation necrosis but was somewhat preserved at neoplasm margins. Choline was increased in most solid tumors. Solid high-grade gliomas had higher normalized choline values than did solid low-grade gliomas (P < .02), but the normalized choline value was not a discriminator of tumor grade, since necrotic high-grade lesions had reduced choline values. Serial studies in one case showed an increase in choline as the glioma underwent malignant degeneration. Choline values were lower in chronic radiation necrosis than in solid anaplastic tumors (P < .001). In two cases studied before and after treatment, clinical improvement and a reduction in choline followed therapy. Lactate is more likely to be found in high-grade gliomas, but its presence is not a reliable indicator of malignancy.
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PMID:Mapping of brain tumor metabolites with proton MR spectroscopic imaging: clinical relevance. 143 44

Effects of severe lactacidosis were analyzed in vitro by employment of C6 glioma cells and astrocytes from primary culture. The cells were suspended in a physiological medium, which was rendered acidotic by addition of lactic acid in rising concentrations. A pH range of 7.4-4.2 was studied under maintenance of isotonicity and a normal electrolyte concentration of the medium. Cell swelling was quantified by flow cytometry using an advanced Coulter system with hydrodynamic focusing. The method was also utilized for assessment of cell viability by exclusion of the fluorescent dye propidium iodide. The volume of C6 glioma cells was found to increase if the pH was titrated to pH 6.8 or below. From this level downward, the extent of cell swelling depended on the degree of acidosis and the duration of exposure. For example, lactacidosis of pH 6.2 for 60 min led to an increase in cell size to 124.5% of normal, while pH 5.0 or 4.2 led to a cell size of 151.1 or 190.9%, respectively. A comparative analysis of the acidosis-induced cell swelling was made by using sulfuric acid. Swelling of C6 glioma at a given pH was only half of what was found when using lactic acid. This indicates specific swelling-inducing properties of lactic acid, while cell viability was not differently affected by both acids. Of the C6 glioma cells, 89.1% were viable under control conditions at pH 7.4. The viability remained unchanged down to pH 6.2. At pH 5.6, viability remained normal for 30 min, but it decreased to 73.4% after 60 min. Further lowering of pH to 5.0 or 4.6 respectively, decreased the number of viable cells to 47.8 or 40.3%. At pH 4.2 only 21.1% of the cells were surviving 1 h of lactacidosis. Cell swelling from lactacidosis could be largely inhibited by replacement of Na+ and bicarbonate ions in the medium by choline chloride and N-2-hydroxyethylpiperazine-N'-2-ethanesulfonic acid buffer, suggesting an involvement of the Na+/H+ and Cl-/HCO3- antiporters in the swelling process. Omission of Na+ and bicarbonate was, however, associated with reduced viability of the glial cells in acidosis. The swelling response of astrocytes obtained from primary culture was similar to that of C6 glioma. Lactic acid was also more effective in inducing cell swelling than sulfuric acid at the same level of acidosis. In astrocytes, viability at, e.g., pH 5.6 appeared to be more affected by lactic than by sulfuric acid.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Effects of lactacidosis on glial cell volume and viability. 221 80

Surface coil 13C nuclear magnetic resonance (NMR) spectroscopy was used to investigate the in vivo carbohydrate metabolism of rat C6 gliomas during and after infusion with [1-13C] glucose. In vivo 1H-decoupled 13C NMR spectra of the glioma following infusion with [1-13C]glucose revealed the direct production of [3-13C]lactic acid, [1-13C]glycogen, and [4-13C], [3-13C], and [2-13C]glutamate/glutamine. Lactate levels of in vivo gliomas increased and reached steady state levels during [1-13C]glucose infusion, and decreased following termination of infusion. Complementary in vitro studies using supernatant media collected from C6 glioma cells incubated with media containing [1-13C] or [6-13C]glucose and glutamine were examined by 1H NMR spectroscopy. The [3-(13C/12C)]lactate ratios obtained from 1H spectra of supernatant media containing [1-13C]glucose revealed the percentage of glucose metabolized through the hexose monophosphate shunt to be 10.01 +/- 0.85% (n = 3), while similar measurements of media containing [6-13C]glucose and glutamine showed that glutaminolysis contributed 9.0 +/- 1.0% of total lactate production under these conditions. Enzymatic analysis of media determined lactate production to be 139 +/- 9 nmol per 10(6) cells per h (n = 4). These measurements demonstrate the ability of NMR to monitor brain tumor carbohydrate metabolism both in vitro and in vivo.
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PMID:Carbohydrate metabolism of the rat C6 glioma. An in vivo 13C and in vitro 1H magnetic resonance spectroscopy study. 327 20

Glutamine synthetase was found to be increased in C-6 glioma cells as a result of increasing culture passage and N-6,2'-O-dibutyryl cyclic AMP (dbcAMP) treatment. At low passage dbcAMP produced a 2.5-fold increase in glutamine synthetase activity per unit of cellular protein. At high passage control glutamine synthetase was approximately double that seen at low passage, but dbcAMP produced an additional 65% increase. Lactate dehydrogenase activity was also increased by dbcAMP treatment at both low and high passage, but culture passage produced no change in the lactate dehydrogenase. With increasing culture passage, the ratio of cellular protein to DNA doubled. Therefore, expression of data per unit of protein tended to minimize the apparent changes in activity. The maximum increase in glutamine synthetase activity produced by both dbcAMP and increasing culture passage and expressed on a DNA basis was 5.6-fold. The increase in glutamine synthetase activity was generally linear during the first 20 h of drug treatment, after which enzyme activity remained nearly constant up to 72 h. Ninety percent or more of the dbcAMP remained in the medium at the end of 48-h exposure of cells to dbcAMP. 8-br-Cyclic AMP also increased glutamine synthetase activity of C-6-cels, but n-butyrate did not. Isoproterenol, which increases cyclic AMP in C-6-cells, increased glutamine synthetase activity. The effect of isoproterenol on glutamine synthetase was inhibited by the beta-adrenergic blocking agent sotalol. Cycloheximide (10 micrograms/ml) inhibited the dbcAMP effect on glutamine synthetase activity and also decreased the control enzyme activity by 60%.
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PMID:Induction of glutamine synthetase by dibutyryl cyclic AMP in C-6 glioma cells. 612 56

We conducted an extended clinical evaluation of localized proton magnetic resonance spectroscopy (MRS) of the brain, performed on various brain diseases using short stimulated echo times. Pathologies studied were mainly multiple sclerosis, stroke, leukoaraiosis, AIDS-related leukoencephalopathies and glial tumors. Other miscellaneous pathologies were also studied. Magnetic resonance examination of the brain was conducted on a Siemens Magnetom SP63 (equipped with a 1.5 T magnet). Localized proton MRS was performed on a routine basis immediately after imaging, using the STEAM (stimulated echo acquisition mode) with a short echo time (20 ms) combined with a CHESS (chemical shift selective excitation) sequence. One or two VOI (8 ml) were examined. Data on 125 spectra were processed by principal component analysis (PCA) and conventional variance analysis. The following metabolite resonances were studied: inositol-glycine, taurine-scyllo-inositol, choline derivatives, phosphocreatine-creatine, aspartate, glutamine glutamate, N-acetylaspartate, acetate and lactate. PCA demonstrates that the different metabolic variables are independent. The analysis of groups of spectra clearly demonstrates that the metabolic profiles detected by localized MRS in various pathologies (i) differ significantly from controls, and (ii) allow a metabolic discrimination between groups of pathologies. Results of PCA are confirmed by variance analysis. Strokes are characterized by an increase in lactate concentration and leukoaraiosis by a decrease in inositol-glycine resonance. AIDS-related leukodystrophies are characterized by increases in lactate and choline concentrations. Reduction in N-acetylaspartate which is observed in most pathologies is not significant in the small lesions of white matter. Lactate has often been found in MS plaques, but no variation in the choline/phosphocreatine ratio was observed. GABA was tentatively assigned in the spectrum of a patient with epilepsy under sodium valproate treatment. This study illustrates the clinical feasibility of the technique, the value of a multiparametric data analysis in the definition of the pertinent variables characterizing the metabolic impairment, and the impact of localized proton MR spectroscopy of the brain in the assessment of cerebral suffering.
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PMID:A multiparametric data analysis showing the potential of localized proton MR spectroscopy of the brain in the metabolic characterization of neurological diseases. 822 60

Quantitative, single voxel proton nuclear magnetic resonance (NMR) spectroscopy and histological analysis was performed in eight dogs implanted with the transplantable canine glioma model of Wodinsky (Proc. Am. Assoc. Cancer Res. 10, 99 (1969)). Signals from choline, creatine, N-Acetyl Aspartate (NAA) and lactate were converted to molar concentration units and correlated with the quantitative analysis of histologically determined tissue types within the localized volume selected for NMR spectroscopy. In general, compared with normal brain, the lesions were associated with reductions in all metabolite concentrations, with the exception of lactate, which was increased. NAA and creatine decreases were most significantly correlated with the total lesion volume (P < 0.01), suggesting that these compounds are present in normal brain only. Changes in choline levels did not correlate strongly with any particular tissue type. Lactate was found to increase with increasing total lesion volume (P < 0.01), but not with increasing percent tumor, suggesting that it accumulates in abnormal tissue other than the tumor. The spectra reported were similar to those observed in human glioblastomas, with the exception that elevations of choline were not observed. The transplantable canine gliosarcoma system appears to be a suitable tumor model for evaluation by clinical radiological techniques such as magnetic resonance imaging (MRI) and proton NMR spectroscopy.
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PMID:Quantitative proton spectroscopy and histology of a canine brain tumor model. 825 93

Hexokinase plays a key role in regulating cell energy metabolism. Hexokinase is mainly particulate, bound to the mitochondrial outer membrane in brain and tumour cells. We hypothesized that the intracellular pH (pH1) controls the intracellular distribution of hexokinase. Using the SNB-19 glioma cell line, pH1 variations were imposed by incubating cells in a high-K+ medium at different pH values containing specific ionophores (nigericin and valinomycin), without affecting cell viability. Subcellular fractions of cell homogenates were analysed for hexokinase activity. Imposed pH1 changes were verified microspectrofluorimetrically by using the pH1-sensitive probe SNARF-1-AM (seminaphtho-rhodafluor-1-acetoxymethyl ester). Imposition of an acidic pH1 for 30 min strongly decreased the particulate/total hexokinase ratio, from 63% in the control sample to 31%. Conversely, when a basic pH1, was imposed, the particulate/total hexokinase ratio increased to 80%. The glycolytic parameters, namely lactate/pyruvate ratio, glucose 6-phosphate and ATP levels, were measured concomitantly. Lactate/pyruvate ratio and ATP level were both markedly decreased by acidic pH1 and increased by basic pH1. Conversely, the glucose 6-phosphate level was increased by acidic pH1 and decreased by basic pH1. To demonstrate that the change of hexokinase distribution was not due to altered metabolite levels of glycolysis, a pH1 was imposed for a 5 min incubation time. Modification of the hexokinase distribution was similar to that noted after a 30 min incubation, whereas metabolite levels of glycolysis were not affected. These results provide evidence that the intracellular distribution of hexokinase is highly sensitive to variations of the pH1, and regulates hexokinase activity.
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PMID:Intracellular pH governs the subcellular distribution of hexokinase in a glioma cell line. 861 Nov 81

The effects of two different stressors, heat shock (HS; 44 degrees C, 20 min) and ethanol (1.2 M, 60 min), on ion content and membrane potential were investigated in C6 rat glioma cells. Both treatments were previously shown to induce the HS response [26]. Intracellular pH (pH(i)), sodium ion concentration ([NA+]i), potassium ion concentration ([K+]i) and membrane potential were determined by means of continuous 31P and 23Na nuclear magnetic resonance (NMR), continuous fluorescence spectroscopy and 86Rb uptake. Lactate extrusion was determined in addition with respect to pH(i) regulation. The aim of this study was a detailed picture of HS and ethanol-induced ion changes in a single cell type, because stress-induced changes in the intracellular ionic balance may be important factors for determining proliferation, stress response and apoptosis. HS lowered the pH(i) from 7.38 +/- 0.04 to about 7.05 +/- 0.04. [Na+]i decreased during HS to 50% of the control and recovered to normal level 95 min after HS treatment. During HS, [K+]i remained constant but increased after HS. The membrane potential hyperpolarized from -83 mV to -125 mV and returned to initial values during HS treatment. Lactate extrusion increased 3-fold after HS. Ethanol (1.2 M) lowered the pH(i) from pH 7.38 +/- 0.04 to pH 7.0 +/- 0.04, but in contrast to heat strongly increased [Na]i. It hyperpolarized the membrane potential from -83 to -125 mV. Ethanol also increased lactate extrusion similar to HS. Also in contrast to the effect of HS, the potassium concentration decreased during ethanol treatment. The Na(+)-H+ exchanger monensin was used to overcome the apparent inhibition of the cellular Na(+)-H+ exchanger by HS. At normal pH(e) (7.4) monensin increased [Na+]i and pH(i) considerably. A subsequent HS reduced [Na+]i only minimally. Acidification of the cells by low pH(e) (6.2) prior to HS did not abolish the HS-induced drop of pH(i), indicating that the Na(+)-H+ exchanger was also inhibited at low pH(i). At low pH(e), monensin transports H+ into the cell. A subsequent HS decreased pH(i) only little, showing the importance of inhibition of the Na(+)-H+ exchanger for the HS-induced pH(i) decrease. 100 microM amiloride reduced pH(i) and [Na+]i in a similar way as HS, but did not change pH(i) and [Na+]i much during a HS. These results indicate that some of the HS-induced ionic changes are mediated by inhibition of the Na(+)-H+ exchanger, activation of Na(+)-K(+)-ATPase and changes of membrane conductance for ions.
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PMID:Heat shock- and ethanol-induced ionic changes in C6 rat glioma cells determined by NMR and fluorescence spectroscopy. 903 1

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