EC:1.4.1.2 - FACTA Search

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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)

Rainbow trout acclimatized to 9 degrees C were subjected to a temperature increase (up to 17 degrees C) for 16 hrs. During the period of acclimatization to 17 degrees C, we studied blood ammonia and urea and the hepatic activity of glutamate dehydrogenase, glutaminase, uricase and arginase. The daily mean rates of blood ammonia and urea did not differ significantly at 9 and 17 degrees C. However, the pattern of these two parameters during the circadian cycle was not the same at 9 degrees C as after 23 days at 17 degrees C. The enzymatic activities rose after one day at 17 degrees C and remained unchanged, except for arginase which showed perfect thermal compensation. During the circadian cycle, there was some similitude between glutaminase activity and blood ammonia at 9 degrees C and after 23 days at 17 degrees C, as well as between arginase activity and blood urea.
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PMID:[Effect of temperature increase on some aspects of nitrogen catabolism in rainbow trout (Salmo gairdneri Rich.)]. 715 5

1. The maximum activity of hexokinase in lymphocytes is similar to that of 6-phosphofructokinase, but considerably greater than that of phosphorylase, suggesting that glucose rather than glycogen is the major carbohydrate fuel for these cells. Starvation increased slightly the activities of some of the glycolytic enzymes. A local immunological challenge in vivo (a graft-versus-host reaction) increased the activities of hexokinase, 6-phosphofructokinase, pyruvate kinase and lactate dehydrogenase, confirming the importance of the glycolytic pathway in cell division. 2. The activities of the ketone-body-utilizing enzymes were lower than those of hexokinase or 6-phosphofructokinase, unlike in muscle and brain, and were not affected by starvation. It is suggested that the ketone bodies will not provide a quantitatively important alternative fuel to glucose in lymphocytes. 3. Of the enzymes of the tricarboxylic acid cycle whose activities were measured, that of oxoglutarate dehydrogenase was the lowest, yet its activity (about 4.0mumol/min per g dry wt. at 37 degrees C) was considerably greater than the flux through the cycle (0.5mumol/min per g calculated from oxygen consumption by incubated lymphocytes). The activity was decreased by starvation, but that of citrate synthase was increased by the local immunological challenge in vivo. It is suggested that the rate of the cycle would increase towards the capacity indicated by oxoglutarate dehydrogenase in proliferating lymphocytes. 4. Enzymes possibly involved in the pathway of glutamine oxidation were measured in lymphocytes, which suggests that an aminotransferase reaction(s) (probably aspartate aminotransferase) is important in the conversion of glutamate into oxoglutarate rather than glutamate dehydrogenase, and that the maximum activity of glutaminase is markedly in excess of the rate of glutamine utilization by incubated lymphocytes. The activity of glutaminase is increased by both starvation and the local immunological challenge in vivo. This last finding suggests that metabolism of glutamine via glutaminase is important in proliferating lymphocytes.
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PMID:Maximum activities of some enzymes of glycolysis, the tricarboxylic acid cycle and ketone-body and glutamine utilization pathways in lymphocytes of the rat. 716 29

The effect of chronic acid feeding and its subsequent withdrawal was determined on the amounts of the metabolic intermediates and enzymic activities of the purine nucleotide cycle. Sprague-Dawley rats were given 1.5% (w/v) NH4Cl in their drinking water for 5 days. The renal excretion of NH3 rose 70-fold and the rats developed acidosis. The amount of renal IMP rose from a control value of 4.5 +/- 2.2 to 20.4 +/- 3.7nmol/g of kidney after 48h of acid feeding (P less than 0.001) and fell to normal within 48h of the recovery. Adenylosuccinate concentrations fell from a control value of 4.5 +/- 0.9nmol/g of kidney to 1.2 +/- 0.3nmol/g (P less than 0.005) by day 5 of acidosis and continued to fall to undetectable values by 48h after recovery. The amount of AMP remained constant through the acid-feeding and the recovery periods. The activity of adenylosuccinate synthetase, the rate-limiting enzyme of the purine nucleotide cycle, paralleled the rise and fall in NH3 excretion. The activities of phosphate-dependent glutaminase and glutamate dehydrogenase were elevated during the acid-feeding and the recovery period. Thus changes in the purine nucleotide cycle correlate with changes in NH3 excretion to a more parallel degree than does the activity of glutaminase or glutamate dehydrogenase.
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PMID:The purine nucleotide cycle in the regulation of ammoniagenesis during induction and cessation of chronic acidosis in the rat kidney. 730 74

Metabolite content was determined in freeze-clamped kidneys to elucidate the rate-controlling steps which are responsible for the inhibition of renal ammoniagenesis that occurs when rats are allowed to recover from metabolic acidosis. After 1 day of recovery from acidosis there were increased renal contents of glutamate, glutamine, alpha-ketoglutarate, citrate, lactate, and malate. The calculated cytoplasmic concentration of oxaloacetate was also increased. The renal content of phosphoenolpyruvate, 3-phosphoglycerate, and ammonia decreased during recovery. No changes were observed in the renal content of the adenine nucleotides or of inorganic phosphate. The activities of phosphate-dependent glutaminase and glutamate dehydrogenase were elevated even after 7 days of recovery although the renal contents of glutamate and alpha-ketoglutarate had returned to control levels by this time. The changes in oxaloacetate and phosphoenolpyruvate are consistent with the fall in the activity of phosphoenolpyruvate carboxykinase observed by Parry and Brosnan. The increased levels of alpha-ketoglutarate and of glutamate are considered to be a consequence of a primary change in the activity of alpha-ketoglutarate dehydrogenase. These results are discussed in the light of the known effects of these metabolites on glutaminase activity and on glutamine entry into renal mitochondria.
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PMID:Renal metabolite concentrations and the activities of glutaminase and glutamate dehydrogenase during recovery from metabolic acidosis in the rat. 733 66

The activity of glutaminase per milligram of protein increased threefold after cultured human diploid fibroblasts were subcultured in fresh medium. The maximum activity was reached after 2 days of growth and decreased once the cells reached confluency. The increase of glutaminase activity was independent of the glutamine concentration between 0.2 and 2.0 mmol/l. In contrast, the specific activity of glutamate dehydrogenase was independent both of the glutamine concentration and the growth phase of the cultured cells. These results indicate that glutaminase, the first enzyme involved in the ultilization of glutamine as an energy source, is elevated in rapidly dividing human diploid fibroblasts.
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PMID:Increase in glutaminase activity during the growth cycle of cultured human diploid fibroblasts. 737 73

1. Hyperuricemia is common among the gouty relatives as reported by others (8-11). It is of interest to note that serum urate fluctuates periodically. Hyperuricemia is not necessarily maintained in a steady state throughout the years. Thus a single determination of serum uric acid can be misleading. 2. Development of gout from asymptomatic hyperuricemia is often correlated with the degree of hyperuricemia as observed from population or family studies (12-14). The data presented indicate that unequivocal hyperuricemia is more often accompanied by excessive excretion of uric acid, diminished excretion of ammonia and abnormally high plasma glutamic acid. All are undoubtedly important risk factors for gout. 3. The elevated glutamate could be due to a deficiency of glutamic dehydrogenase, as postulated by Pagliara and Goodman (15). In presence of intracellular accumulation of glutamate in glutamic dehydrogenase deficiency, renal production of ammonium may be reduced due to its inhibitory action on glutaminase 1. As a result of a renal block of ammonia formation, the glutamine in surplus may be diverted for uric acid synthesis. 4. Long-term studies indicate serum urate in most hyperuricemia relatives of gout can be modified by environmental factors, such as diet, weight and changes of life style. When hyperuricemia is under better control, the potential hazard of developing symptomatic gout may be circumvented.
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PMID:The natural history of hyperuricemia among asymptomatic relatives of patients with gout. 742 21

A new procedure for the analysis and detection of phosphate-activated glutaminase (EC 3.5.1.2) by native electrophoresis has been developed. The method is based on the in situ detection of glutaminase activity in two different systems of native polyacrylamide gradient gels, containing 3-(3-cholamidopropyl)-dimethyl-ammonio-1-propane sulfonate (CHAPS) or Triton X-100 as nondenaturant detergents. Crude Triton X-100 extracts of mitochondria were resolved by electrophoresis. The enzyme was specifically revealed by incubation of the gel with glutamine and coupling the oxidation of the glutamate formed to the reduction of a tetrazolium dye, in the presence of glutamate dehydrogenase trapped in a 1% agar solid overlay. Both Ehrlich ascitic cell and mouse kidney glutaminases were resolved by native electrophoresis and specifically detected with the activity staining. Moreover, the redox-cycling staining was tested in solution, showing linearity with the amount of glutamate or glutaminase activity present. The method described could be a useful tool for native polyacrylamide gel electrophoresis of membrane proteins.
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PMID:Native polyacrylamide gel electrophoresis of membrane proteins: glutaminase detection after in situ specific activity staining. 768 75

In renal ammoniagenesis, two major pathways of glutamine metabolism have been described: (i) intracellular metabolism by phosphate-dependent glutaminase (PDG) and glutamate dehydrogenase and (ii) extracellular metabolism by phosphate-independent glutaminase. The latter has been identified as the hydrolytic activity of the apically membrane-bound gamma-glutamyl transpeptidase (gamma-GT). The growth properties of cultured renal epithelia enable the study of in vitro extracellular metabolic properties occurring at the apical epithelial surface in the culture dish. Therefore, confluent epithelia of the LLC-PK1 renal epithelial cell line were used to elucidate the role of extracellular (apical) hydrolysis of glutamine by gamma-GT in LLC-PK1 ammonia production. To distinguish between intra- and extracellular metabolism of glutamine, confluent LLC-PK1 epithelia were incubated with either D-glutamine as substrate, which cannot be metabolized intracellularly by PDG, or with L-glutamine and hippurate to stimulate, and AT-125 (acivicin) to inhibit gamma-GT activity, respectively. In addition, cellular uptake of the glutamate, extracellularly formed by gamma-GT, was inhibited by D-aspartate. D-Glutamine (2 mM) did not increase ammonia formation above endogenous production levels, indicating the negligible role of extracellular hydrolysis of glutamine by gamma-GT. After modulating gamma-GT activity by hippurate or AT-125, almost identical ammonia production rates were found within the various experimental protocols, further confirming that extracellular metabolism of glutamine does not significantly contribute to LLC-PK1 ammoniagenesis.
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PMID:Ammoniagenesis in renal cell culture. Lack of extracellular ammoniagenesis at the apical surface of LLC-PK1 epithelia. 768 42

Rat hippocampal slices preloaded with D-[3H]aspartate, a non metabolizable analogue of L-glutamate, were superfused with artificial CSF. Depolarization was induced by 53.5 mM K+, in the presence of Ca2+ (1.3 mM) or Mg2+ (5 mM) to determine the Ca2+ dependent release. Haloperidol added in the superfusion medium at 100 microM reduced by about 60% the Ca2+ dependent release of D-[3H]aspartate. This drug at 20 microM or 100 microM inhibited the non-activated glutamate dehydrogenase (GDH) but had no effect on GDH activated by ADP (2 mM) or leucine (5 mM). In addition no effect was observed on phosphate activated glutaminase (PAG) in the presence either of 20 mM or 5 mM phosphate. These results indicate that the effect of haloperidol is exerted on presynaptic mechanisms regulating neurotransmitter release.
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PMID:Haloperidol reduces K(+)-evoked Ca(2+)-dependent D-[3H]aspartate release from rat hippocampal slices. 773 54

The ammonia concentration and changes in the activity of ammonia metabolizing enzymes in the brain tissue during ischemia/reperfusion were investigated in rats. During ischemia (0.5 h) we found a statistically significant increase in brain ammonia concentration and a significant decrease in glutamate dehydrogenase activity. After 1 h of reperfusion, a further accumulation of ammonia concentration was observed. Furthermore, the brain glutamine syntethase and glutamate dehydrogenase were decreased, whereas the brain glutaminase activity was increased. The causes for the changed activities of some ammonia metabolizing enzymes in brain after ischemia/reperfusion have been discussed.
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PMID:Accumulation of ammonia and changes in the activity of some ammonia metabolizing enzymes during brain ischemia/reperfusion injury in rats. 780 37

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