EC:1.4.3.11 - FACTA Search

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Query: EC:1.4.3.11 (glutamate dehydrogenase)
4,437 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In islets from adult rats injected with streptozocin during the neonatal period, the oxidative and secretory responses to D-glucose are more severely affected than those evoked by L-leucine. A possible explanation for such a preferential defect was sought by comparing the rate of aerobic glycolysis, taken as the sum of D-[3,4-14C]glucose conversion to labeled CO2, pyruvate, and amino acid, with the total glycolytic flux, as judged from the conversion of D-[5-3H]glucose to 3H2O. A preferential impairment of aerobic relative to total glycolysis was found in islets from diabetic rats incubated at either low or high D-glucose concentration. This coincided in islet mitochondria of diabetic rats with a severe decrease in both the basal (no-Ca2+) generation of 3H2O from L-[2-3H]glycerol-3-phosphate and the Ca2(+)-induced increment in [3H]glycerophosphate detritiation. The mitochondria of diabetic rats were also less efficient than those of control animals in generating 14CO2 from [1-14C]-2-ketoglutarate. The diabetes-induced alteration of 2-ketoglutarate dehydrogenase in islet mitochondria was less marked, however, than that of the FAD-linked glycerophosphate dehydrogenase and was not associated with any change in responsiveness to Ca2+. Sonicated islet mitochondria of diabetic rats displayed normal to slightly elevated glutamate dehydrogenase activity. We propose, therefore, that the preferential impairment of the oxidative and secretory responses of islet cells to D-glucose in this experimental model of diabetes may be at least partly attributable to an altered transfer of reducing equivalents into the mitochondria as mediated by the glycerol phosphate shuttle.
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PMID:Impairment of glycerol phosphate shuttle in islets from rats with diabetes induced by neonatal streptozocin. 182 72

The purpose of this work was to evaluate the biochemical changes in the myocardial cell using cardioplegia supplemented with creatine phosphate (CP). Many previous studies have demonstrated the beneficial effect of CP on the ischemic myocardium and its mechanism of action has been assumed to be mainly extracellular. Based on the assumption that CP could also exert some influence on myocardial cellular metabolism, this investigation was carried out. Forty patients undergoing mitral valve replacement were divided into two groups: group 1 was treated with standard cardioplegic solution, and group 2 was treated with cardioplegic solution enriched with CP at a concentration of 10 mmol/L. Samples of papillary muscle, obtained from the removed valve, were studied by means of biochemical methods in order to assess the enzyme activities and the metabolites of the different biochemical pathways related to energy metabolism in the myocardial cell. One papillary muscle sample was used to determine enzyme activities spectrophotometrically; another was used to evaluate metabolite concentrations by spectrophotometric or spectrophotofluorimetric methods. The rate of spontaneous functional recovery after rewarming and weaning from cardiopulmonary bypass (CPB) also was evaluated. In group 2, the Vmax of enzymatic activities was significantly greater (hexokinase, malate dehydrogenase, glutamate dehydrogenase, total NADH cytochrome c reductase) and a better functional state of the heart was observed after CPB. On the basis of the clinical and biochemical data, it is concluded that the myocardium was better preserved when CP was added to the cardioplegic solution. Therefore, the results suggest a possible interaction of exogenous CP with cellular metabolism.
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PMID:Biochemical changes induced in the myocardial cell during cardioplegic arrest supplemented with creatine phosphate. 193 52

Haemonchus contortus, incubated in 10 micrograms/ml and 50 micrograms/ml concentrations of Nilzan and albendazole in Tyrode solution were stained for histoenzymatic demonstration of various phosphatases, oxido-reductases and esterases. The intestine showed major alterations after drug treatments. The alkaline phosphatases (AkPase), adenosine triphosphatase (ATPase), glucose-6-phosphatase, succinic dehydrogenase (SDH), glutamate dehydrogenase (GDH), reduced nicotinamide adenine dinucleotide phosphate diaphorase and reduced nicotinamide adenine dinucleotide diaphorase showed a decreased activity in intestine after Nilzan treatment, whereas lactic dehydrogenase (LDH), glucose-6-phosphate dehydrogenase (G-6-PD) and monoamine oxidase resisted increased reaction. The albendazole treatment resulted in altered distribution pattern of the AkPase, ATPase, SDH, and GDH; while LDH, G-6-PD, and non-specific esterases exhibited slightly enhanced activity in the epithelium. The functional significance of these changes has been fully discussed.
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PMID:Effect of Nilzan and albendazole on the absorptive surfaces of Haemonchus contortus (Nematoda)--a histoenzymic study. 196 79

The reductive amination of alpha-ketoglutarate, catalyzed by bovine liver glutamate dehydrogenase, is inhibited by various anions. Formate and acetate ions are competitive with alpha-ketoglutarate. The pH dependence of the pKi profiles for these anions reveals that they bind to the enzyme-NADPH complex only when an enzymatic residue of pK 8.0 +/- 0.1 in the binary complex is protonated. The ionization of this residue has a delta Hion of 15 +/- 4 kcal/mol. These pK and delta Hion values are not significantly different from those observed in the same complex for the enzyme group which binds the gamma-CO2- of alpha-ketoglutarate and oxalylglycine. It is concluded that formate and acetate also bind to the gamma-carboxylate site in enzyme-NADPH. The Ki values for formate and acetate in a buffer containing 0.1 M phosphate are 20 +/- 4 and 32 +/- 5 mM, respectively, when the pK 8.0 group is fully protonated. Phosphate and trifluoroacetate also show an inhibitory effect, while valerate and sulfate have little effect on the reductive amination rates. The results suggest that specific anions can bind to the gamma-carboxylate site by ionic interactions and alter the kinetic and thermodynamic parameters of the glutamate dehydrogenase-NADPH complex in significant ways.
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PMID:Characterization of the general anion-binding site in glutamate dehydrogenase-NADPH complex. 199 Nov 33

To evaluate changes in liver metabolic zonation during development of juvenile cirrhosis, zonal activities of succinate dehydrogenase, glutamate dehydrogenase, glucose-6-phosphatase, and nicotinamide adenine dinucleotide phosphate (NADPH) dehydrogenase were measured by quantitative cytochemistry in the liver of developing rats intoxicated with carbon tetrachloride and phenobarbitone. During treatment, activities were most decreased in perivenular zones and subsequently at the periphery of the cirrhotic nodules for succinate dehydrogenase and glucose-6-phosphatase, whereas glutamate dehydrogenase and NADPH dehydrogenase were less affected. In the periportal zones, enzyme activities decreased less. After stopping intoxication, the rats remained cirrhotic, but enzyme activities returned to control perivenular levels at the periphery of the cirrhotic nodule and to control periportal levels at its center. It is concluded that a metabolic zonation persists in carbontetrachloride/phenobarbitone-induced juvenile cirrhosis and that enzyme activities can recover despite persisting cirrhosis. In this model, afferent vessels seem to be located at the center of the cirrhotic nodules, and efferent vessels, at their periphery. A different metabolic zonation may exist in other human and animal liver cirrhosis that could be related to the site of initial liver damage.
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PMID:Adaptative changes of metabolic zonation during the development of cirrhosis in growing rats. 216 52

The infusion of ether anesthaetized rats with 0.2 M (1 mmols in total) ammonium acetate or glutamine were compared with the infusion of 0.2 M NaCl. The levels of circulating glucose, amino acids, lactate, urea and ammonium were measured as well as liver glycogen and tissue amino acids and the liver and muscle activities of carbamoyl phosphate synthetases I and II, glutamate dehydrogenase, glutamine synthetase and adenylate deaminase. Neither treatment altered the glucose and glycogen homeostasis. The infusion of ammonium did not result in increases in circulating ammonium, but resulted in increased circulating urea after a short delay; the infusion of glutamine resulted also in urea production but much later on. Glutamine infusion also resulted in increased tissue free amino-acid levels. There was little alteration in enzyme activities, except for decreased glutamine synthetase and adenylate deaminase activity in muscle of glutamine-infused rats and higher tissue carbamoyl phosphate synthetase II. The results agree with a fast removal of infused ammonium, and maintenance of glutamine, with their channeling towards urea production at a rate comparable with that of infusion, that did not alter significantly the homeostasis of the experimental animals.
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PMID:Glutamine and ammonium handling by anaesthetized rats. 247 81

Activities and properties of the ammonium assimilation enzymes NADP+-dependent glutamate dehydrogenase (GDH), glutamate synthase (GOGAT) and glutamine synthetase (GS) were determined in batch and continuous cultures of Candida albicans. NADP+-dependent GDH activity showed allosteric kinetics, with an S0.5 for 2-oxoglutarate of 7.5 mM and an apparent Km for ammonium of 5.0 mM. GOGAT activity was affected by the buffer used for extraction and assay, but in phosphate buffer, kinetics were hyperbolic, yielding Km values for glutamine of 750 microM and for 2-oxoglutarate of 65 microM. The enzymes GOGAT and NADP+-dependent GDH were also assayed in batch cultures of Saccharomyces cerevisiae and three other pathogenic Candida spp.: Candida tropicalis, Candida pseudotropicalis and Candida parapsilosis. Evidence is presented that GS/GOGAT is a major pathway for ammonium assimilation in Candida albicans and that this pathway is also significant in other Candida species.
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PMID:Ammonium assimilation by Candida albicans and other yeasts: evidence for activity of glutamate synthase. 257 53

The metabolism of trimethylamine (TMA) and dimethylamine (DMA) in Arthrobacter P1 involved the enzymes TMA monooxygenase and trimethylamine-N-oxide (TMA-NO) demethylase, and DMA monooxygenase, respectively. The methylamine and formaldehyde produced were further metabolized via a primary amine oxidase and the ribulose monophosphate (RuMP) cycle. The amine oxidase showed activity with various aliphatic primary amines and benzylamine. The organism was able to use methylamine, ethylamine and propylamine as carbon- and nitrogen sources for growth. Butylamine and benzylamine only functioned as nitrogen sources. Growth on glucose with ethylamine, propylamine, butylamine and benzylamine resulted in accumulation of the respective aldehydes. In case of ethylamine and propylamine this was due to repression by glucose of the synthesis of the aldehyde dehydrogenase(s) required for their further metabolism. Growth on glucose/methylamine did not result in repression of the RuMP cycle enzyme hexulose-6-phosphate synthase (HPS). High levels of this enzyme were present in the cells and as a result formaldehyde did not accumulate. Ammonia assimilation in Arthrobacter P1 involved NADP-dependent glutamate dehydrogenase (GDH), NAD-dependent alanine dehydrogenase (ADH) and glutamine synthetase (GS) as key enzymes. In batch cultures both GDH and GS displayed highest levels during growth on acetate with methylamine as the nitrogen source. A further increase in the levels of GS, but not GDH, was observed under ammonia-limited growth conditions in continuous cultures with acetate or glucose as carbon sources.
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PMID:Nitrogen metabolism in the facultative methylotroph Arthrobacter P1 grown with various amines or ammonia as nitrogen sources. 258 50

Streptococcus bovis JB1 cells energized with glucose transported glutamine at a rate of 7 nmol/mg of protein per min at a pH of 5.0 to 7.5; sodium had little effect on the transport rate. Because valinomycin-treated cells loaded with K and diluted into Na (pH 6.5) to create an artificial delta psi took up little glutamine, it appeared that transport was driven by phosphate-bond energy rather than proton motive force. The kinetics of glutamine transport by glucose-energized cells were biphasic, and it appeared that facilitated diffusion was also involved, particularly at high glutamine concentrations. Glucose-depleted cultures took up glutamine and produced ammonia, but the rate of transport per unit of glutamine (V/S) by nonenergized cells was at least 1,000-fold less than the V/S by glucose-energized cells. Glutamine was converted to pyroglutamate and ammonia by a pathway that did not involve a glutaminase reaction or glutamate production. No ammonia production from pyroglutamate was detected. S. bovis was unable to take up glutamate, but intracellular glutamate concentrations were as high as 7 mM. Glutamate was produced from ammonia via a glutamate dehydrogenase reaction. Cells contained high concentrations of 2-oxoglutarate and NADPH that inhibited glutamate deamination and favored glutamate formation. Since the carbon skeleton of glutamine was lost as pyroglutamate, glutamate formation occurred at the expense of glucose. Arginine deamination is often used as a taxonomic tool in classifying streptococci, and it had generally been assumed that other amino acids could not be fermented. To our knowledge, this is the first report of glutamine conversion to pyroglutamate and ammonia in streptococci.
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PMID:Transport of glutamine by Streptococcus bovis and conversion of glutamine to pyroglutamic acid and ammonia. 272 40

The ontogenetic development of the enzymes phosphate activated glutaminase (PAG), glutamate dehydrogenase (GLDH), glutamic-oxaloacetic-transaminase (GOT), glutamine synthetase (GS), and ornithine-delta-aminotransferase (Orn-T) was followed in cerebellum in vivo and in cultured cerebellar granule cells. It was found that PAG, GLDH, and GOT exhibited similar developmental patterns in the cultured neurons compared to cerebellum. PAG showed, however, a more pronounced phosphate activation in the cultured granule cells compared to in vivo. The activity of GS remained low in the cultured neurons compared to the increasing activity of this enzyme found in vivo. On the other hand Orn-T exhibited an increase in its specific activity in the cultured cells as a function of time in culture in contrast to the non-changing activity of this enzyme in vivo. Compared to cerebellum the cultured neurons exhibited higher activities of GLDH, GOT, and Orn-T whereas the activity of PAG was only slightly higher in the cultured cells. The activity of GS in the cultured neurons was only 5-10% of the activity in cerebellum in vivo. It is concluded that cultured cerebellar granule cells represent a reliable model system by which the metabolism and function of glutamatergic neurons can be conveniently studied in a physiologically meaningful way.
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PMID:Ontogenetic development of glutamate metabolizing enzymes in cultured cerebellar granule cells and in cerebellum in vivo. 285 27

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