Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.4.1.2 (glutamate dehydrogenase)
 4,380 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The role of extracellular glutamate formation as opposed to cellular glutamate removal in regulating monolayer glutamate content in response to metabolic acidosis was studied in LLC-PK1-F+ cells. Exposure to metabolic acidosis (14 mM bicarbonate; pH 7.1) for 18 h resulted in 24% fall in monolayer glutamate content. Of this, approximately one-half could be attributed to enhanced glutamate removal via glutamate dehydrogenase, consistent with a rise in ammonium production. The remainder appears due to reduced extracellular glutamate formation as a consequence of diminished gamma-glutamyltranspeptidase (gamma-Gt) activity. Metabolic acidosis, but not respiratory acidosis, resulted in a 33% fall in gamma-Gt activity and a proportional fall in extracellular glutamate formation; glutamate transport into these cells was not rate limiting in acidosis. Overall glutamine utilization decreased 36%, reflecting the fall in gamma-Gt activity as well as a decrease in a pH-sensitive glutamine uptake, whereas glutamine transport coupled to the phosphate-dependent glutaminase flux increased. It is noteworthy that the increased ammonium produced in metabolic acidosis was preferentially secreted into the apical compartment; acid secretion, but not production, was similarly increased. Thus reduced cellular glutamate appears to coordinate activation of intracellular glutaminase to the apical membrane exchanger, consistent with the functioning kidney response to metabolic acidosis.
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PMID:Response of LLC-PK1-F+ cells to metabolic acidosis. 863 75

Freshwater fish, Cyprinus carpio, was exposed to sublethal concentration (3 microg liter-1) of cypermethrin for 5 and 10 days to examine the changes in the transamination process during the formation of nitrogenous end products in four functionally different tissues, namely, gill, liver, brain, and muscle. Increases in total and soluble protein contents were noticed in all the tissues of exposed fish with a decrease in free amino acids and protease activity. Activity levels of both the transaminases, aspartate aminotransferase and alanine aminotransferase, and glutamate dehydrogenase were elevated, indicating active transamination and oxidative deamination. Attenuation of ammonia was consistent in both treatment groups. However, urea level decreased at the 5-day exposure period but increased by Day 10, manifesting the conversion of toxic ammonia to urea. Glutamine content was consistently raised upon exposure to the toxicant. In support of this, increases in glutamine synthetase and suppression of glutaminase were noticed. It clearly indicates that ammonia is not stored in the tissues in spite of active oxidative deamination when the fish is in a polluted environment. All the observations made demonstrate that the fish has adopted more than one compensatory mechanism during the process of transamination of nitrogenous products.
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PMID:Action of cypermethrin on tissue transamination during nitrogen metabolism in Cyprinus carpio. 881 84

Chronic stimulation of cerebellar granule cells with N-methyl-D-aspartate (NMDA) or KCI induces a specific activation of the enzymes directly involved in glutamate neurotransmitter synthesis. Phosphate-activated glutaminase (PAG) activity is enhanced in cultured granule neurons incubated with 150 microM NMDA or 25 mM KCI. Other enzymes are not affected by this treatment like lactate dehydrogenase (LDH) and glutamate dehydrogenase (GLDH), which is also a mitochondrial enzyme but not directly involved in neurotransmitter synthesis. This effect is dependent on protein synthesis and is induced after 12 hr of NMDA or KCI stimulation. Kinetics of PAG activity showed that Km values were unaffected, in contrast to Vmax values that were increased approximately 70% and 215% over control by NMDA and KCI treatment, respectively. For GLDH, we found two isoforms that were affected differentially by the experimental conditions. Western blot analysis clearly evidenced an increase of approximately 120-180% in the amount of PAG in NMDA- and KCI-treated cells, whereas GLDH was not significantly modified. These results demonstrate that the NMDA- and KCI-induced activation of PAG are not due to the modification of the preexisting enzyme, but to an increase in the synthesis of this enzyme. This suggests that NMDA receptor stimulation during critical periods of the cerebellar granule cell development leads to the activation of gene expression involved in the process of cell differentiation.
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PMID:Characterization of the activation of glutaminase induced by N-methyl-D-aspartate and potassium in cerebellar granule cells. 887 28

Glutamine (Gln)-supplemented perioperative total parenteral nutrition (TPN) has been reported to reduce the loss of intramuscular glutamine following routine surgery. This study investigates whether glutamine-supplemented TPN can alter muscle biochemistry acutely in the very severely ill patient. Thirty-eight patients (age 19-77 yr; mean 55 yr), critically ill (APACHE II range 8-31; median 17) admitted to the intensive care unit (ICU) were recruited to receive either conventional TPN (CTPN) or an isonitrogenous, isoenergetic feed supplemented with 25 g crystalline L-glutamine per 24 h (GTPN) in a prospective, double blind, block-randomized study. In a representative sample of these patients, relatives consented to a paired muscle biopsy taken before feeding (10 GTPN/9 CTPN patients; ICU Day 2-4) and repeated 5 days later (16 patients; ICU Day 7-9). Muscle biopsies and matching plasma samples were analyzed using a coupled glutaminase-glutamate dehydrogenase enzymatic assay. A correction was made using sodium to account for the massive changes in extracellular fluid volume. The average muscle Gln content before feeding was very low. Between biopsies no consistent pattern of change was seen with or without exogenous Gln. It also proved difficult in these very sick patients to correct a low plasma Gln with L-Gln-TPN during the initial phase of the severe illness. TPN supplementation with 25 g/24 h, L-glutamine appears inadequate in the acute period to counteract the muscle and plasma biochemical changes seen in these patients. It is unknown whether any larger dose could alter this state.
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PMID:Effect of parenteral L-glutamine on muscle in the very severely ill. 887 14

CCl4-induced cirrhosis of rats was used for studying the influence of L-ornithine-L-aspartate (OA) on hyperammonemia. OA given to cirrhotic rats (2 g/kg daily) for 2 wk slightly increased net body weight and led to a significant increase in plasma urea levels and a decrease in plasma ammonia levels. Serum concentrations of glutamate, glutamine and arginine decreased significantly. In the livers of the OA-treated rats the activities of carbamoylphosphate synthetase I and arginase increased by 30 and 40%, respectively, approaching normal levels. No change in the activities of the other urea cycle enzymes as well as of glutamate dehydrogenase, glutaminase and glutamine synthetase was found. The negative correlation between glutamine synthetase activity and plasma ammonia levels reported previously for cirrhotic rats (Gebhardt and Reichen, Hepatology 20:684-691, 1994) was corroborated for cirrhotic animals not treated with OA, but was no longer apparent in OA-treated cirrhotic rats. Despite this improvement, plasma ammonia levels still varied considerably reflecting the variable accessibility and activities of glutamine synthetase in cirrhotics. Cultured hepatocytes from the two groups of rats showed a similar stimulation of urea production by addition of ammoniumacetate and/or OA to Hanks' buffered salt solution. In Williams medium E, however, the hepatocytes from the OA group produced significantly more urea than those from controls. These results suggest that treatment of cirrhotic rats with OA considerably improves urea production favoring the detoxification of ammonia that, however, is still limited by the severe alterations in liver architecture that are not influenced by OA in a 2-wk period.
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PMID:Treatment of cirrhotic rats with L-ornithine-L-aspartate enhances urea synthesis and lowers serum ammonia levels. 933 1

Changes in the activity of enzymes involved in glutaminolysis and energy metabolism in the entire gastrointestinal (GI) tract of developing piglets are presented for the first time. The activities of glutaminase, glutamate dehydrogenase, oxoglutarate dehydrogenase, isocitrate dehydrogenase and alanine aminotransferase in the epithelium along the gastrointestinal tract from newborn, suckling (2-4 weeks old) and weaned (9 weeks old) piglets were investigated. The activity of glutaminase in the epithelium from the small intestine and colon was higher (p < 0.05) in weaned piglets than in newborn and suckling piglets. In addition, glutamate dehydrogenase and alanine aminotransferase activities in the small intestinal epithelium were higher (p < 0.05) for weaned piglets than for newborns. The activity of oxoglutarate dehydrogenase in the epithelium of the small intestine was significantly lower in newborn and suckling piglets compared with weaned individuals. The activity of isocitrate dehydrogenase in the epithelium along the gastrointestinal tract was higher (p < 0.05) for suckling and weaned piglets than for newborn piglets. The present data indicate that the utilization of substrates for energy production differs markedly between the stomach, small intestine and colon of growing piglets. Also, the capacity of enzymes in the epithelium of the GI tract to utilize acetyl-CoA as an energy substrate in the tricarboxylic acid cycle increased with piglet age. The epithelium of the GI tract of the newborn, suckling and weaned piglets showed a high capacity to metabolize alpha-ketoglutarate.
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PMID:Activities of enzymes involved in glutamine metabolism in connection with energy production in the gastrointestinal tract epithelium of newborn, suckling and weaned piglets. 1002 73

We present the setup of a flow injection analysis system designed for on-line monitoring of glutamate and glutamine. These amino acids represent a major energy source in mammalian cell culture. A cycling assay consisting of glutamate dehydrogenase and aspartate aminotransferase produces NADH proportional to the glutamate concentration in the sample. NADH is then measured spectrophotometrically. Glutamine is determined by conversion to glutamate which is fed into the cycling assay. The conversion of glutamine to glutamate is catalyzed by asparaginase. Asparaginase was used in place of glutaminase due to its relatively high reactivity with glutamine and a pH optimum similar to that of glutamate dehydrogenase. The enzymes were immobilized covalently to activated controlled pore glass beads and integrated into the flow injection analysis system. The application of the immobilized enzymes and the technical setup are presented in this paper.
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PMID:Enzyme-based flow injection analysis system for glutamine and glutamate in mammalian cell culture media. 1003 69

The glutamine metabolism was studied in glucose-starved and glucose-sufficient hybridoma and Sp2/0-Ag14 myeloma cells. Glucose starvation was attained by cultivating the hybridoma cells with fructose instead of glucose, and the myeloma cells with a low initial glucose concentration which was rapidly exhausted. Glutamine used in the experiments was labeled with 15N, either in the amine or in the amide position. The fate of the label was monitored by 1H/15N NMR analysis of released 15NH+4 and 15N-alanine. Thus, NH+4 formed via glutaminase (GLNase) could be distinguished from NH+4 formed via glutamate dehydrogenase (GDH). In the glucose-sufficient cells a small but measurable amount of 15NH+4 released by GDH could be detected in both cell lines (0.75 and 0.31 micromole/10(6) cells for hybridoma and myeloma cells, respectively). The uptake of glutamine and the total production of NH+4 was significantly increased in both fructose-grown hybridoma and glucose-starved myeloma cells, as compared to the glucose-sufficient cells. The increased NH+4 production was due to an increased throughput via GLNase (1.6 -1.9-fold in the hybridoma, and 2.7-fold in the myeloma cell line) and an even further increased metabolism via GDH (4.8-7.9-fold in the hybridoma cells, and 3.1-fold in the myeloma cells). The data indicate that both GLNase and GDH are down-regulated when glucose is in excess, but up-regulated in glucose-starved cells. It was calculated that the maximum potential ATP production from glutamine could increase by 35-40 % in the fructose-grown hybridoma cells, mainly due to the increased metabolism via GDH.
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PMID:Elevated glutamate dehydrogenase flux in glucose-deprived hybridoma and myeloma cells: evidence from 1H/15N NMR. 1009 57

Glutamate is believed to be an excitatory amino acid neurotransmitter in the retina. Enzymes for glutamate metabolism, such as glutamate dehydrogenase, ornithine aminotransferase, glutaminase, and aspartate aminotransferase (AAT), exist mainly in the mitochondria. The abnormal increase of intracellular calcium ions in ischemic retinal cells may cause an influx of calcium ions into the mitochondria, subsequently affecting various mitochondrial enzyme activities through the activity of mitochondrial calpain. As AAT has the highest level of activity among enzymes involved in glutamate metabolism, we investigated the change of AAT activity in ischemic and hypoxic rat retinas and the protection against such activity by calpain inhibitors. We used normal RCS (rdy+/rdy+) rats. For the in vivo studies, we clamped the optic nerve of anesthetized rats to induce ischemia. In the in vitro studies, the eye cups were incubated with Locke's solution saturated with 95% N2/5% CO2. The activity of cytosolic AAT (cAAT) was about 20% of total activity, whereas mitochondrial AAT (mAAT) was about 75% in rat retina. Ninety minutes of ischemia or hypoxia caused a 20% decrease in mAAT activity, whereas cAAT activity remained unchanged. To examine the contribution of intracellular calcium ions to the degradation of mAAT, we used Ca2+-free Locke's solution containing 1 mM EGTA, ryanodine (Ca2+ channel blocker), and thapsigargin (Ca2+-ATPase inhibitor). In the present study, thapsigargin in Ca2+-free Locke's solution, but not ryanodine in this solution, was found to prevent AAT degradation. AAT degradation was also prevented by calpain inhibitors (Ca2+-dependent protease inhibitor) such as calpeptin at 1 nM, 10 nM, 0.1 microM, 1 microM and 10 microM, and by calpain inhibitor peptide, but not by other protease inhibitors (10 microM leupeptin, pepstatin, chymostatin). Additionally, we determined the subcellular localization of calpain activity and examined the change of calpain activity in ischemic rat retinas. Our results suggest that decreased activity of mAAT in ischemic and hypoxic rat retinas might be evoked by the degradation by calpain-catalyzed proteolysis in mitochondria.
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PMID:Possible mechanism for the decrease of mitochondrial aspartate aminotransferase activity in ischemic and hypoxic rat retinas. 1039 49

Changes in hepatic nitrogen metabolism in isolated perfused liver were studied during the induction of experimental cirrhosis by thioacetamide in female Sprague-Dawley rats. Cirrhosis of the micronodular type developed during 12-week administration of thioacetamide. Despite an increase in food consumption for 4 weeks after the end of administration, the physiological changes characteristic of cirrhosis were maintained. The rate of urea excretion per unit liver weight was significantly decreased compared with pair-fed control rats both during and after thioacetamide treatment. During 4 weeks of thioacetamide treatment, the rate of urea production in perfused liver from a combination of 0.25 mM NH4Cl and 1 mM glutamine decreased slightly, without a decrease in the maximum rate of urea production from 10 mM NH4Cl. In cirrhotic rats, the rate of urea production in perfused liver from NH4Cl and/or glutamine decreased, with a decrease in the maximum rate of urea production. The Km of ureagenesis for NH3 was unchanged in cirrhotic livers. During 4 weeks of thioacetamide treatment, glutamate dehydrogenase activity decreased, but the thioacetamide-induced cirrhotic state had no effect on glutamate dehydrogenase or glutaminase activity. Glutamine synthetase activity was decreased in rats treated with thioacetamide for 4 or 12 weeks. These results are consistent with the hypothesis that the capacity for urea production from NH3 and amino acids is decreased in the development of cirrhosis.
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PMID:Changes in hepatic nitrogen metabolism in isolated perfused liver during the development of thioacetamide-induced cirrhosis in rats. 1045 21


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