EC:1.4.1.2 - FACTA Search

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 leucine analog beta-2-aminobicyclo[2.2.1]heptane-2-carboxylic acid (BCH) activates glutamate dehydrogenase [L-glutamate:NAD+ oxidoreductase (deaminating), EC 1.4.1.2] in pancreatic islet homogenates. In intact islets, BCH increased the islet content or output of NH4+, 2-ketoglutarate, malate, pyruvate, and alanine. BCH caused a dose-related increase in 14CO2 output from islets prelabeled with L-[U-14C]glutamine. BCH increased the islet content of ATP and stimulated both 45Ca net uptake and insulin release. The capacity of seven distinct amino acids to activate glutamate dehydrogenase tightly correlated with their ability to augment 14CO2 output from islets prelabeled with [U-14C]-glutamine and to stimulate insulin release in the presence of L-glutamine. The activation of glutamate dehydrogenase by BCH may thus account for the insulin-releasing capacity of the leucine analog.
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PMID:Stimulation of pancreatic islet metabolism and insulin release by a nonmetabolizable amino acid. 611 57

The effect of pyridoxal 5'-phosphate on the activity of ox liver glutamate dehydrogenase towards different amino acid substrates was investigated. Both alanine and glutamate activities decreased steadily in the presence of pyridoxal 5'-phosphate. The alanine/glutamate activity ratio increased as a function of inactivation by pyridoxal 5'-phosphate, indicating that glutamate activity is lost more rapidly than alanine activity. A mixture of NADH, GTP and 2-oxoglutarate completely protected the alanine and glutamate activities against inactivation by pyridoxal 5'-phosphate. The activity of glutamate dehydrogenase towards glutamate and leucine decreased steadily in a constant ratio in the presence of pyridoxal 5'-phosphate. The effect of leucine on the alanine and glutamate activities as a function of inactivation by pyridoxal 5'-phosphate was studied. The results are interpreted to suggest that the subunits of glutamate dehydrogenase hexamer are kinetically non-equivalent with regard to activity towards the two monocarboxylic amino acids as well as glutamate, and that all three substrates share the same active centre. However, leucine is also able to bind at a separate regulatory site.
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PMID:Ox liver glutamate dehydrogenase. The use of chemical modification to study the relationship between catalytic sites for different amino acid substrates and the question of kinetic non-equivalence of the subunits. 614 32

Column perifusion of collagenase-isolated mouse pancreatic islets was used to study the dynamics of insulin release in experiments lasting for several hours. The methyl esters of L-leucine and L-arginine were synthesized. Whereas L-arginine methyl ester (L-arginine OMe) had no effect, L-leucine OMe stimulated the release of insulin. The effect of L-leucine OMe was maximal at 5 mmol/liter. Whereas the Km for glucose-stimulated insulin release was unaffected by 1 mmol/liter L-leucine OMe, the maximal release of D-glucose was increased by the amino acid derivative that appeared more effective than L-leucine. L-Leucine OMe was also a potent stimulus of insulin release from the perfused mouse pancreas. In the presence of 10 mmol/liter L-glutamine, 1 mmol/liter L-leucine OMe induced a 50- to 75-fold increase in insulin release. A similar stimulatory effect was also observed in column-perifused RIN 5F cells, a cloned rat islet tumor cell line. A twofold increase in islet glutamate dehydrogenase activity was induced by 5 mmol/liter L-leucine OMe, a larger effect than that of L-leucine (P less than 0.02), whereas L-arginine OMe had a small inhibitory effect. We conclude that L-leucine OMe is a potent stimulus of insulin secretion and that its effect on the beta-cells may be exerted by activating islet glutamate dehydrogenase.
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PMID:L-leucine methyl ester stimulates insulin secretion and islet glutamate dehydrogenase. 619 91

The half-life of mitochondrial adenosine triphosphatase and the relative rate constants of protein degradation for several fractions of rat liver have been measured by the double-isotope technique. It has been shown that the apparent turnover rates of some mitochondrial enzymes, far apart in size, such as carbamoyl phosphate synthetase, glutamate dehydrogenase and malate dehydrogenase, are not related to molecular weight or to size of subunits. In view of the possibility that mitochondrial proteins are degraded by different mechanisms, it was of interest to determine the half-life of a protein tightly bound to the inner membrane such as adenosine triphosphatase. The rate constants of degradation for rats fed a basal diet and injected at three-day intervals with isotopic leucine were: homogenate, kd = 0.195 days-1; mitochondria, kd = 0.135 days-1; cytosol, kd = 0.140 days-1; microsomes, kd = 0.28 days-1; ATPase, kd = 0.275 days-1. The rate constants of the cellular fractions of liver of rats fed a high protein diet did not change or showed a small increase, compared with those of animals fed the basal diet, while those from rats on the protein-free diet showed a decrease. The rate constant for adenosine triphosphatase showed an increase with high-protein and a decrease with protein-free diet. A procedure for the purification of ATPase from a single liver of a rat is described.
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PMID:Turnover of adenosine triphosphatase from rat liver mitochondria. Effect of high-protein and low-protein diets. 621 5

Adrenalectomy of 8- to 9-week old Sprague-Dawley rats produced decreases in the levels of glutamate dehydrogenase (GDH). Administration of cortisol hemisuccinate (100 ng/g BW) resulted in a transient increase in the level of the enzyme; on low or zero protein diets, this response continued for much longer periods of time. In adrenalectomized animals, induction by (Bu)2cAMP could be seen, but only in conjunction with cortisol, which exerted a permissive effect. In thyroidectomized animals, the level of GDH was not lowered significantly, but was increased by T3 (5-40 ng/g BW). The response was bimodal with time, showing a peak of activity at 2 h, and a second peak at 16 h. The first peak was not inhibited by actinomycin D or by cycloheximide, and was not associated with increased incorporation of 3H-leucine into immunoprecipitable GDH. The second peak was inhibited by both antibiotics, and was associated with increased incorporation of labeled leucine into the enzyme. It appears therefore that thyroid hormones exert two separate effects on GDH, the first one not involving de novo synthesis of enzyme protein and the other involving de novo synthesis. The turnover of GDH appeared to be unaffected by thyroidectomy. In animals which were both adrenalectomized and thyroidectomized, cortisol and T3 were able to produce induction of GDH, indicating the absence of any permissive effects between the two.
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PMID:Hormonal effects on liver glutamate dehydrogenase in adrenalectomized and thyroidectomized rats. 632 43

In mouse pancreatic islets the kinetics of insulin secretion and O2 uptake in response to the non-metabolizable leucine analogue (+/-)-BCH (2-endo- aminonorbornane -2-carboxylic acid) were compared. In addition, the fuel-mobilizing effect of (+/-)-BCH was studied with a mitochondrial fraction from islets. (1) Within 2 min 20 mM-(+/-)-BCH markedly enhanced insulin release or O2 consumption by islets respiring in the absence of exogenous fuels. During prolonged exposure to 20 mM-(+/-)-BCH secretion declined more rapidly than O2 uptake. (2) L-Glutamine (10 mM) prevented the decrease of both insulin release and O2 uptake of islets exposed to 20mM-(+/-)-BCH. During the second phase of insulin release in response to 20 mM-(+/-)-BCH + 10 mM-L-glutamine, kinetics of secretion and respiration correlated closely. (3) Initial peaks were consistently seen in the (+/-)-BCH-induced secretory profiles, but never in the respiratory profiles. (4) In contrast with L-glycerol 3-phosphate, L-malate or pyruvate, L-glutamine or L-glutamate maintained low rates of oxidative phosphorylation in B-cell mitochondria. The effects of L-glutamine or L-glutamate were potentiated severalfold by (+/-)-BCH. (5) The effects of other branched-chain amino acids on oxidative phosphorylation resembled their effects on insulin release, redox state of nicotinamide nucleotides and glutamate dehydrogenase activity. (6) The results support the view that (+/-)-BCH stimulates insulin secretion via a primary enhancement of hydrogen supply to the respiratory chain of B-cell mitochondria.
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PMID:Regulation of insulin secretion by energy metabolism in pancreatic B-cell mitochondria. Studies with a non-metabolizable leucine analogue. 637 87

5'-p-Fluorosulfonylbenzoyladenosine (5'-FSBA) is a specific affinity label for the inhibitory NADH site of bovine liver glutamate dehydrogenase. Reaction of the enzyme with 5'-FSBA results in the loss of inhibition by high concentrations of NADH with covalent attachment of 0.53 sulfonylbenozyladenosine/subunit, i.e. modification of three subunits of the hexameric enzyme. Equal amounts of N epsilon-(4-carboxybenzenesulfonyl)lysine (Lys-(CBS] and O-(4-carboxybenzenesulfonyl)tyrosine (Tyr-(CBS] are found throughout the course of the reaction (Saradambal, K. V., Bednar, R. A., and Colman, R. F. (1981) J. Biol. Chem. 256, 11866-11872). Modified enzyme, prepared by incubating 2 mg/ml glutamate dehydrogenase with 0.3 mM 3H-labeled 5'-FSBA at pH 8 for 1 h, was carboxymethylated and digested with thermolysin. Two nucleosidyl peptides were isolated by a combination of chromatography on phenyl boronate-agarose, high-performance liquid chromatography in ammonium bicarbonate and high-performance liquid chromatography in trifluoroacetic acid. By comparison of the amino acid analysis and NH2-terminal residue of each isolated peptide with the known amino acid sequence of the enzyme, the peptides were identified as Leu-Gly-Arg-Lys(CBS) and Ile-Gly-His-Tyr(CBS)-Asp. These sequences correspond to residues 417-420 and 187-191, respectively. Lys-420 and Tyr-190 of glutamate dehydrogenase react with 5'-FSBA, and both are apparently located in the NADH inhibitory site.
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PMID:Identification of the lysine and tyrosine peptides labeled by 5'-p-fluorosulfonylbenzoyladenosine in the NADH inhibitory site of glutamate dehydrogenase. 643 99

Baboons fed ethanol (50% of total calories) chronically develop ultrastructural alterations of hepatic mitochondria. To determine whether mitochondrial functions are also altered, mitochondria were isolated from nine baboons fed ethanol chronically and their pair-fed controls. At the fatty liver stage, ADP-stimulated respiration was depressed in ethanol-fed baboons by 59.4% with glutamate, 43.2% with acetaldehyde, 45.1% with succinate and 51.1% with ascorbate as substrates. A similar decrease was noted in the ADP/O ratio (14 to 28%) and respiratory control ratio (20 to 44%) with all substrates. Similar alterations of mitochondrial functions were observed in baboons with more advanced stages of liver disease, namely fibrosis. These changes after ethanol treatment were associated with decreases in the enzyme activities of mitochondrial respiratory chain: glutamate, NADH and succinate dehydrogenase (42, 24 and 28%, respectively), glutamate-, NADH- or succinate-cytochrome c reductase (42, 27 and 32%, respectively) and cytochrome oxidase (59.6%). The content of all cytochromes was also decreased in ethanol-fed baboons, especially aa3 (57%). Moreover, [14C]leucine incorporation into mitochondrial membranes was depressed by 21% after ethanol treatment. On the other hand, glutamate dehydrogenase activities of serum and cytosol in ethanol-fed baboons were significantly higher than those in pair-fed controls. Morphologically, mitochondria of ethanol-fed baboons were larger than those of pair-fed controls. However, the mitochondrial protein content per mitochondrial DNA was unchanged. From these results, we conclude that, morphologically and functionally, hepatic mitochondria in baboons are altered by chronic ethanol consumption; it is noteworthy that these changes are fully developed already at the fatty liver stage, and that morphological alteration appears to reflect the damage of mitochondrial membranes rather than an adaptive hypertrophy.
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PMID:Biochemical and morphological alterations of baboon hepatic mitochondria after chronic ethanol consumption. 653 46

The effect of phosphoenolpyruvate on glutamate dehydrogenase activity was studied in both intact and Triton X-100-treated rabbit renal mitochondria. The intramitochondrial phosphoenolpyruvate content was modulated by application of both 3-MPA, an inhibitor of phosphoenolpyruvate carboxykinase, and BTCA, which inhibits the tricarboxylate-transporting system. The data indicate that: (i) phosphoenolpyruvate is a potent inhibitor of glutamate dehydrogenase activity; and (ii) its inhibitory effect on the enzyme may be abolished by leucine and ADP, activators of glutamate dehydrogenase.
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PMID:Inhibition of glutamate dehydrogenase activity in rabbit renal mitochondria by phosphoenolpyruvate. 662 69

L-Leucine and its nonmetabolized analogue, 2-aminobicyclo-[2,2,1]heptane-2-carboxylic acid (BCH) activate glutamate dehydrogenase in pancreatic islets, whether the reaction velocity is measured in the direction of glutamate synthesis or glutamate deamination. The rate of glutamate oxidative deamination is increased by ADP and inhibited by 2-ketoglutarate, NH4+ and GTP. The islet homogenate catalyzes the transamination between L-glutamate and either 2-ketoisocaproate or pyruvate, and between 2-ketoglutarate and L-leucine, L-aspartate, L-alanine, L-isoleucine, L-valine, L-norvaline or L-norleucine, but not b (+/-) BCH. The glutamate-aspartate transaminase is preferentially located in mitochondria relative to other transaminases. The parallel effects of L-leucine and BCH on glutamate dehydrogenase and their vastly different abilities to act as transamination partners may account for both analogies and discrepancies in the metabolic and functional responses of the islets to these two branched-chain amino acids.
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PMID:The stimulus-secretion coupling of amino acid-induced insulin release. XI. Kinetics of deamination and transamination reactions. 675 75

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