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)

Oral administration of L-triiodothyronine (L-T3) (0.015-1 mg/kg) for 30 days to mature rats or cynomolgus monkeys resulted in both species in a high mortality at 1 mg/kg (after 2 weeks of treatment) and a progressive loss in body weight. Dose-related elevations in plasma marker enzymes occurred, mainly after 1-2 weeks of treatment. The approximate no-effect dose for these changes was around 0.015-0.020 mg/kg for both rat and primate. The large elevations of leucine aminopeptidase (LAP) at 1 mg/kg L-T3 in monkey indicated hepatocellular toxicity although in the rat such large increases in alanine aminotransferase (ALT) and glutamate dehydrogenase (GLDH) were not seen. L-T3 also showed little toxicity to rat hepatocytes in vitro. High concentrations of L-T3 (7 x 10(-9) to 7 x 10(-7) M) had minimal effects on parameters of cell viability such as lactate dehydrogenase (LDH) leakage, chromium-51 release and [3H]leucine incorporation. Urinary enzymes in the rat showed a similar profile to those in plasma. Large rises in alkaline phosphatase (AKP) and N-acetyl glucosaminidase (NAG) at 1 mg/kg indicated possible proximal tubular damage although this was not supported histologically. Clinically, in both species L-T3 appeared more toxic to males than females but this was not supported histologically. The histological lesions observed were different in the 2 species. In the monkeys there was extensive lipid vacuolation of hepatocytes and changes in thyroid and adrenal cortex. In the rat there was fine, non-lipid vacuolation of hepatocytes and thyroid changes. In the rat, 2 previously unreported lesions were also noted. There were multinucleated cells in the renal distal tubular epithelium, and focal fibroplasia of serosal surfaces of abdominal viscera.
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PMID:Comparison of the toxicity of orally administered L-triiodothyronine (T3) in rat and cynomolgus monkey. 320 78

The integrated use of several energy sources allows high muscular power outputs to be sustained. Muscle glycogen provides the major fuel source for muscular exercise, but other fuels can provide alternative energy sources which allow for muscle glycogen-sparing and an increased potential for prolonged high metabolic rates. Blood-borne glucose, derived from liver glycogenolysis and glyconeogenesis, as well as intra-muscular lipids and plasma free fatty acids derived from adipose tissue provide the main energy alternatives to muscle glycogen. Several amino acids, including the essential amino acid leucine, are also used directly as oxidizable fuels during exercise. Depending on the duration and intensity of exercise and other factors such as glycogen stores and energy intake, amino acids can provide from a few to approximately 10% of the total energy for sustained exercise. Additionally, many amino acids can be converted to glutamate (via glutamate dehydrogenase) and then to alanine (via glutamate-pyruvate transaminase). Alanine, along with lactate and pyruvate, are recognized as the major gluconeogenic precursors. Via this mechanism, several amino acids play crucial roles in providing the carbon sources for maintaining blood glucose homeostasis during exercise and glycogen restitution during recovery. And finally, during exercise and recovery, amino acids likely play important anaplerotic functions sustaining the whole metabolic apparatus.
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PMID:Amino acid and protein metabolism during exercise and recovery. 331 14

Peptides representing the C-terminal end of secretin were synthetized and their effects tested along with secretin on column-perifused isolated mouse pancreatic islets. Insulin release induced by 10 mmol/l D-glucose was potentiated by secretin tested in a concentration range of 0.01-10 micrograms/ml; the maximal effect was obtained with 1 microgram/ml secretin. This effect was mimicked by 50-500 micrograms/ml NH2-Leu-Leu-Gln-Gly-Leu-Val-NH2, [S-(22-27)], which represents an amidated C-terminal sequence of the secretin molecule. The consecutive smaller secretin C-terminal peptides had either no effects [Val-NH2, S-(24-27)] or only marginally [S-(26-27), S-(23-27)] potentiating effects on insulin release in the presence of 10 mmol/l D-glucose. The effects of secretin and S-(22-27) were not influenced by 2 mmol/l glutamine. The intact hormone and the five synthetic peptides as well as Val-NH2 had no stimulatory effect on islet glutamate dehydrogenase activity. In fact, S-(23-27), S-(24-27), and S-(25-27) inhibited the islet glutamate dehydrogenase activity, the activation by which amino acids and amino acid derivatives are known to elicit a potentiation of insulin release. Our results suggest that the C-terminal part is important to the marked potentiation of glucose-induced insulin release in vitro by secretin.
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PMID:Secretin and its C-terminal hexapeptide potentiates insulin release in mouse islets. 351 6

D-Glucose increased the cytosolic NADH/NAD+ ratio (but not the cytosolic NADPH/NADP+ ratio), augmented O2 uptake, raised the ATP/ADP ratio, decreased 86Rb outflow, and stimulated insulin release in tumoral insulin-producing cells of the RINm5F line. L-Leucine and 4-methyl-2-oxopentanoate also stimulated insulin secretion. In the RINm5F cells, as in normal islet cells, the nonmetabolized analogue of L-leucine, 2-aminobicyclo[2,2,1]heptane-2-carboxylic acid (BCH), activated glutamate dehydrogenase, augmented L-[U-14C]glutamine oxidation, and induced a more reduced state of cytosolic redox couples. However, in sharp contrast to either its effect in normal islet cells or that of D-glucose in the tumoral cells, BCH severely decreased O2 uptake, lowered the ATP/ADP ratio, increased 86Rb outflow, and inhibited insulin release in the RINm5F cells. These findings are interpreted to support the concept that the rate of ATP generation represents an essential determinant of the secretory response of insulin-producing cells to nutrient secretagogues.
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PMID:Opposite effects of D-glucose and a nonmetabolized analogue of L-leucine on respiration and secretion in insulin-producing tumoral cells (RINm5F). 354 45

The effect of long-chain acyl-CoA on glutamate dehydrogenase activity was studied in uncoupled rabbit kidney cortex mitochondria incubated with glutamate and palmitoylcarnitine in the presence of arsenite. The mitochondrial long-chain acyl-CoA (about 2 nmol/mg of protein) accumulated in the presence of arsenite resulted in an inhibition of ammonia production from 4.1 to 1.2 nmol/min per mg of protein. Leucine and ADP, activators of glutamate dehydrogenase, did not release the inhibitory effect of long-chain acyl-CoA on glutamate deamination. In view of the presented data it seems that inhibitory effect of long-chain acyl-CoA on glutamate dehydrogenase activity may have a physiological significance.
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PMID:The relationship between the rate of glutamate deamination and long-chain acyl-CoA accumulation in kidney cortex mitochondria of rabbit. 359 79

We used high-resolution polyacrylamide gradient gel electrophoresis (PGGE) to separate four babesial enzymes to aid in the identification of two Babesia microti isolates established in hamsters. The isolates were compared to two different hamsters passages of the "Gray" strain. All isoenzymes patterns from the two isolates and the "Gray" strain were similar except glucose phosphate isomerase (GPI) from one of the "Gray" strain passages. It showed a polymorphic GPI pattern as opposed to a monomorphic GPI pattern seen in the other "Gray" strain passage and the two isolates. The observed differences suggested that some population of B. microti are capable of having polymorphic GPI, that the "Gray" strain originally contained (and may still contain) a heterogeneous population of B. microti, and that the population possessing polymorphic GPI was selected over that with monomorphic GPI. This information was obtained by a PGGE method that eliminated hemoglobin from gels and allowed, for the first time, detection of babesial leucine amino peptidase (LAP) and isocitrate dehydrogenase (IDH). In addition, this method provided molecular weight estimations on babesial GPI, LAP, IDH, and glutamate dehydrogenase (GDH), and it proved useful in the identification and characterization of the B. microti isolates.
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PMID:Isoenzyme analysis of Babesia microti infections in humans. 373 51

The metabolic effects of beta-(+/-)-2-aminobicyclo-(2.2.1)-heptane-2-carboxylic acid (BCH), a nonmetabolizable analog of leucine and known activator of glutamate dehydrogenase, were studied in hepatocytes isolated from fed and fasted rats. With glutamine as substrate, BCH stimulated in a concentration-dependent manner urea synthesis in both physiological states and glucose formation in hepatocytes from fasted rats. Despite the much higher rates of ureagenesis in the fasted animals, the degree of stimulation by BCH, over 2-fold, was similar. The effect of the drug was specific for glutamine since the rates of urea synthesis from NH4Cl, alanine, and asparagine were essentially unaltered. The stimulation of glutamine catabolism by BCH led to a decrease in the content of intracellular glutamine. The redox states of the mitochondrial and cytosolic nicotinamide adenine dinucleotides remained unaltered. In hepatocytes isolated from fasted rats and incubated with 5 mM glutamine the BCH-induced increases in urea, ammonia, and the amino acids, glutamate, aspartate, and alanine, accounted fully for the 2.4-fold rise in glutamine utilization. The stimulatory effects of BCH and glucagon on the formation of glucose, urea, and 14CO2 from [U-14C]glutamine were additive. Aminooxyacetate, and inhibitor of transaminases, neither blocked glutamine catabolism (as measured by the sum of urea, ammonia, and glutamate) nor prevented its activation by BCH. It is suggested that, in isolated hepatocytes, BCH-induced stimulation of glucose and urea formation from glutamine results from activation of glutaminase by a mechanism which is distinct from that of glucagon.
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PMID:Glutamine metabolism in rat hepatocytes. Stimulation by a nonmetabolizable analog of leucine. 377 24

The effects of different substrates supporting respiration and glutamine-dependent citrulline synthesis from ornithine, ammonia, and bicarbonate by isolated hepatic mitochondria from Squalus acanthias (spiny dogfish) were determined. Highest rates of respiration were achieved with succinate, palmitoyl-CoA, and beta-hydroxybutyrate as oxidizable substrates. All acyl-CoAs tested (from C-2 to C-22) supported carnitine-dependent respiration at a substantial rate. Short-chain fatty acids did not support respiration. Ammonia required for citrulline synthesis could be formed from glutamate, or from leucine plus alpha-ketoglutarate which gives rise to glutamate by transamination, as the result of glutamate dehydrogenase activity, but the reaction was inhibited by succinate or other oxidizable substrates. Alanine or ornithine could not be substituted for leucine, suggesting that leucine may specifically activate glutamate dehydrogenase. Glutamate required for citrulline synthesis could be formed from alpha-ketoglutarate and ammonia as the result of glutamate dehydrogenase activity if succinate was present. Transamination of alpha-ketoglutarate with ornithine present in the reaction mixtures provided glutamate at a rapid rate whether or not succinate was present. These results are consistent with the view that hepatic dogfish mitochondria efficiently utilize acyl-CoAs derived from triglyceride stores in the liver to support respiration, glutamine-dependent citrulline synthesis from ammonia, and formation of ketone bodies as a major fuel for muscle.
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PMID:Support of respiration and citrulline synthesis by isolated hepatic mitochondria from Squalus acanthias by acyl-CoAs and other nitrogen-donating substrates. 381 53

Citrate, malate, and high levels of ATP dissociate the mitochondrial aspartate aminotransferase-glutamate dehydrogenase complex and have an inhibitory effect on the latter enzyme. These effects are opposed by Mg2+, leucine, Mg2+ plus ATP, and carbamyl phosphate synthase-I. In addition, Mg2+ directly facilitates formation of a complex between glutamate dehydrogenase and the aminotransferase and displaces the aminotransferase from the inner mitochondrial membrane which could enable it to interact with glutamate dehydrogenase in the matrix. Zn2+ also favors an aminotransferase-glutamate dehydrogenase complex. It, however, is a potent inhibitor of and has a high affinity for glutamate dehydrogenase. Leucine, however, enhances binding of Mg2+ and decreases binding of and the effect of Zn2+ on the enzyme. Thus, since both metal ions enhance enzyme-enzyme interaction and Zn2+ is a more potent inhibitor, the addition of leucine in the presence of both metal ions results in activation of glutamate dehydrogenase without disruption of the enzyme-enzyme complex. Furthermore, the combination of leucine plus Mg2+ produces slightly more activation than leucine alone. These results indicate that leucine, carbamyl phosphate synthase-I, and its substrate and cofactor, ATP and Mg2+, operate synergistically to facilitate glutamate dehydrogenase activity and interaction between this enzyme and the aminotransferase. Alternatively, Krebs cycle intermediates, such as citrate and malate, have opposing effects.
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PMID:Regulation of aminotransferase-glutamate dehydrogenase interactions by carbamyl phosphate synthase-I, Mg2+ plus leucine versus citrate and malate. 399 14

1. l-Leucine strongly activated intramitochondrial glutamate dehydrogenase in the direction of glutamate synthesis. 2. In the deamination direction, the enzyme was not stimulated by leucine. This was probably due to a rate-limiting transport of glutamate across the mitochondrial membrane. 3. The effect of leucine on the kinetic constants of glutamate dehydrogenase in a mitochondrial sonicate was studied. 4. In isolated mitochondria, leucine did not stimulate the synthesis of citrulline with glutamate as the source of NH(3). 5. Leucine very markedly stimulated the synthesis of glutamate from added 2-oxoglutarate+NH(4)Cl. 6. Under conditions where glutamate and citrulline could be synthesized simultaneously from added NH(4)Cl, leucine greatly increased glutamate synthesis at the expense of citrulline synthesis. 7. It is suggested that the intramitochondrial leucine concentration may be a factor influencing the nitrogen metabolism of the liver cell.
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PMID:Effect of L-leucine on the nitrogen metabolism of isolated rat liver mitochondria. 472 23

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