EC:2.6.1.2 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.6.1.2 (alanine aminotransferase)
26,722 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. The concentrations of alanine, aspartate, glutamate, glutamine and serine plus threonine have been measured by enzymic methods in ;quick-frozen' livers from normal, starved, alloxan-diabetic and phlorrhizin-treated rats. 2. The hepatic concentrations of alanine and serine plus threonine were decreased in rats starved for 48hr. Treatment of these rats with phlorrhizin resulted in a rapid fall (within 2(1/2)hr.) in the concentrations of all the glucogenic amino acids except serine plus threonine, which increased. The pattern for alloxan-diabetic rats was similar to that for phlorrhizin-treated animals, except that here serine plus threonine also decreased in concentration. 3. The effects of anoxia on the hepatic concentrations of the glucogenic amino acids are reported. 4. Inhibition of glutamate-pyruvate transaminase in vivo by l-cycloserine resulted in the accumulation of alanine in situations involving high rates of gluconeogenesis from endogenous amino acids. 5. Measurements of the concentrations of the reactants of the glutamate-pyruvate transaminase and glutamate-oxoglutarate transaminase systems in various metabolic states suggest that they are both at or near equilibrium in rat liver. 6. New enzymic methods are described for the determination of serine plus threonine and alanine.
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PMID:Concentrations of free glucogenic amino acids in livers of rats subjected to various metabolic stresses. 604 91

Evidence is provided for the utilization of glutamine by calvaria and compact bone of rat. Glutamine was actively transported into calvaria, principally by sodium-dependent mechanisms; its uptake was significantly inhibited by neutral amino acids (alanine, proline, serine, asparagine) and glutamine analogs (L-glutamate-gamma-hydroxamate, albizziin). Glutamine was degraded to ammonia and glutamate by phosphate-dependent glutaminase, a mitochondrial enzyme present in both calvaria and compact bone. The enzyme exhibited an apparent Kmgln of 2.35 mM, a KactPO4 of 25 mM, and a broad pH optimum (7.5-9.5). It was inactivated by incubation of intact calvaria or bone homogenates with the glutamine analogs 6-diazo-5-oxo-L-norleucine (DON) and a 2-amino-4-oxo-5-chloropentanoic acid (chloroketone). Such treatment also severely inhibited (greater than 95%) both ammonia and 14CO2 formation from [U-14C]glutamine. Glutamate dehydrogenase, alanine aminotransferase, and aspartate aminotransferase activities were measured in bone. Amino-oxyacetate, an aminotransferase inhibitor, inhibited 14CO2 formation from [U-14C]glutamine. The data indicate that glutamine can serve as a precursor of ammonia, glutamate, other amino acids (alanine, aspartate, ornithine, proline) and carbon dioxide in bone and that phosphate-dependent glutaminase, transaminases, and citric acid cycle activity contribute to the observed metabolism.
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PMID:Glutamine metabolism in bone. 613 80

Metabolism of the glutamate group of amino acids--glutamic acid, gamma-amino-butyric acid, glutamine, aspartic acid and alanine--was studied in the brain of rat as a function of age. The levels of glutamic acid, glutamine and aspartic acid decreased while those of gamma-aminobutyric acid, and alanine increased with age. The results on the activity of the twelve enzymes involved in the metabolism showed that five of them (glutamate dehydrogenase, glutamine synthase, gamma-aminobutyric acid transaminase, succinic semialdehyde dehydrogenase and NAD+-isocitrate dehydrogenase) decreased, while four of them (glutaminase, glutamotransferase, glutamic acid decarboxylase, and alpha-ketoglutarate dehydrogenase) increased. The other three enzymes (aspartate aminotransferase, alanine aminotransferase and NADP+-isocitrate dehydrogenase) did not show any significant change in activity. An age-related increase was seen in alpha-ketoglutarate and ammonia, the intermediates involved in the metabolism of these amino acids. The changes in the level of these amino acids are discussed in relation to the altered energy metabolism during aging.
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PMID:Metabolism of the glutamate group of amino acids in rat brain as a function of age. 614 62

Methotrexate-loaded glutaraldehyde-treated canine carrier erythrocytes were used to deliver a 1.6-mg/kg dosage of drug. About 90% of the drug-loaded cells disappeared from circulation within 1 h. Approximately 11 mg of drug reached the liver, and a substantial portion of the methotrexate entered the enterohepatic bile salt circulation. Biochemical tests of liver function, such as alkaline phosphatase and serum glutamine pyruvate transaminase, indicated mild hepatocellular necrosis which was attributed to the action of methotrexate on the hepatocytes. Bilirubin levels were unchanged during and following drug treatment. The plasma half-life of the drug was extended 2.4-fold in the first 24 h following injection.
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PMID:Hepatic pharmacokinetics of glutaraldehyde-treated methotrexate-loaded carrier erythrocytes in dogs. 641 45

Crocodilians such as caimans and alligators are uricotelic and ammoniotelic animals. They are carnivorous but they excrete ammonium ions in an alkaline urine. The metabolic organization of the kidney of the Mississippi alligator was studied by measuring the renal metabolite profile, the activities of enzymes, and the behavior of kidney tubules in vitro. The liver and tail muscle were also studied. Both awake and anesthetized animals were in a state of low plasma bicarbonate and low blood pH with high plasma lactate concentration. This did not prevent the excretion of an alkaline urine (pH 7.76). alpha-Ketoglutarate was low in all three tissues and lactate was high. Glutamate concentration and glutamate dehydrogenase activity were highest in the kidney with a low equilibrium constant for alanine aminotransferase (KGPT). Glutaminase I was found only in the kidney. It could not be detected in liver or muscle. Glutamine synthetase was found only in the liver. Phosphoenolpyruvate carboxykinase (PEPCK) was present in both liver and kidney. Alanine aminotransferase and malic enzyme showed high activity in the kidney but were inconspicuous in liver and muscle. Malate dehydrogenase and lactate dehydrogenase were present in all three tissues. Renal tubules incubated with glutamine and alanine were ammoniagenic and gluconeogenic. Lactate was gluconeogenic. Enzyme activities were measured at both 30 and 37 degrees C. The studies on renal tubules were also performed at these two temperatures. Temperature had little effect on the data including acid-base values in the blood. Our findings demonstrate that the kidney of the alligator is perfectly equipped for various metabolic functions and especially for ammoniagenesis and gluconeogenesis.
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PMID:Metabolic machinery of the alligator kidney. 649 95

Some experimental and clinical studies were done from the metabolic viewpoint to elucidate the characteristics of myonephropathic-metabolic syndrome. In experimental dogs with their femoral arteries ligated and two third of femoral muscles divided, aldolase and myoglobin showed remarkable increase without significant changes in electrolytes. Slight increase of GPT and GOT was observed. Amino acids showed elevation in urea, taurin, leucin, isoleucin, valine, threonine, 3-methylhistidine, phenylalanine, histidine, lysine, methionine, tyrosine and anserin and decrease in glutamine, alanine, glycine, proline, carnosine, citrullin and arginine. In patients with acute arterial occlusion, potassium, GOT, LDH, CPK, lactate and pyruvate increased moderately and myoglobin showed remarkable increase and aldolase slight increase. Amino acids showed remarkable increase in 3-methylhistidine and beta-amino-isobutyric acid and moderate increase in phenylalanine and arginine. These results revealed that measurement of free amino acid concentration, especially that of methylhistidine as well as myoglobin, pyruvate, lactate and some other enzymes might be of great help to predict the prognosis of patients with acute arterial occlusion of the extremities.
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PMID:[Metabolic study on acute arterial occlusion of the extremities]. 667 89

Renal adaptation to chronic metabolic acidosis was studies in Arbor Acre hens receiving ammonium chloride by stomach tube 0.75 g/kg/day during 6 days. During a 14-day study, it was shown that the animals could excrete as much as 60% of the acid load during ammonium chloride administration. At the same time urate excretion fell markedly but the renal contribution to urate excretion (14%) did not change. During acidosis, blood glutamine increased twofold and the tissue concentration of glutamine rose in both liver and kidney. Infusion of L-glutamine led to increased ammonia excretion and more so in acidotic animals. Glutaminase I, glutamate dehydrogenase, alanine aminotransferase (GPT), and malic enzyme activities increased in the kidney during acidosis but phosphoenolpyruvate carboxykinase (PEPCK) activity did not change. Glutaminase I was not found in the liver, but hepatic glutamine synthetase rose markedly during acidosis. Glutamine synthetase was not found in the kidney. Renal tubules incubated with glutamine and alanine were ammoniagenic and gluconeogenic to the same degree as rat tubules with the same increments in acidosis. Lactate was gluconeogenic without increment during acidosis. The present study indicates that the avian kidney adapts to chronic metabolic acidosis with similarities and differences when compared to dog and rat. Glutamine originating from the liver appears to be the major ammoniagenic substrate. Our data also support the hypothesis that hepatic urate synthesis is decreased during acidosis.
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PMID:The kidney of chicken adapts to chronic metabolic acidosis: in vivo and in vitro studies. 681 56

beta-Methylene-DL-aspartate, a new beta, gamma-unsaturated amino acid, is an irreversible inhibitor of soluble pig heart glutamate-aspartate transaminase (Ki approximately 3 mM with respect to the L-form; limiting rate constant for inactivation approximately 0.4 min-1). The new amino acid is the most specific inhibitor of glutamate-aspartate transaminase thus far studied. It does not inactivate pig heart glutamate-alanine transaminase, soluble rat kidney glutamine transaminase K, gamma-aminobutyrate transaminase (from Pseudomonas fluorescens), glutamate decarboxylase (Escherichia coli), snake venom L-amino acid oxidase, or hog kidney D-amino acid oxidase. In addition, the following enzymes were not inhibited by beta-methylene-DL-aspartate in rat tissue homogenates: gamma-aminobutyrate transaminase (brain), tyrosine transaminase (liver), glutamine transaminase L (liver), asparagine, transaminase (liver), ornithine transaminase (liver) or branch-chain transaminase(s) (kidney). Intraperitoneal injection of beta-methylene-DL-aspartate into mice decreased kidney and liver glutamate-aspartate transaminase activities but had no effect on liver glutamate-alanine transaminase activity.
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PMID:Inhibition of glutamate-aspartate transaminase by beta-methylene-DL-aspartate. 683 Jun 31

Cell morphology, glutamic pyruvic (GTP) and glutamic oxalacetic transaminases (GOT) concentrations, and the ability to produce glucose or urea from different substrates (pyruvate, alanine, fructose, lactate and glutamine) were studied in isolated mouse and rat liver cells in the presence of Ca2+ and K+ chelating agents (0.1 M sodium perchlorate and 0.027 M sodium citrate with 1 mg/ml bovine albumin; ionic strength: 0.198, pH: 7.4). The chelating agent is perfused through the portal vein of an in situ liver, at low pressure (8 ml/min) at 20 C for 15 min. Cell dispersion is obtained by cutting liver lobes and "massaging" the tissue with a plastic spatula. Wash and cell concentration may be obtained by sedimentation or centrifugation in Krebs III, glucose 150 mg %, improved with 0.16 M pyruvate, 0.1 M fumarate and 0.16 M glutamate. This procedure furnished 53.06 +/- 3.33 X 10(6) cells, which was highly significant (p less than 0.001) with respect to saline controls: 6.11 +/- 1.91 X 10(6). After staining with Papanicolaou, hematoxylin-eosin, and PAS, the cellular material obtained was classified optically into: normal isolated parenchymal liver cells, hepatocyte clumps, "burst" cells, normal blood or reticuloendothelial cells, cellular debris and non-cellular material. Cell morphology showed that a constant perfusion (8 ml/min) with a minimal mechanical treatment, 82.5% of the liver cells appears normal. Biochemical study showed that transaminases are indeed lost, but this loss is below the amount capable of effecting metabolic blockade (3/4 of transaminases remain in liver cells; GOT in cells: 692 +/- 218; GPT in cells. 264 +/- 94; GOT in supernatant: 152 +/- 29; GPT in supernatant: 79 +/- 12 mUI/10(6) cells, after recovering 60 min at 37 C) (means +/- SEM). Conversion of substrates (sodium pyruvate 10 mM, 20 mM D-L alanine, 10 mM fructose and 20 mM D-L sodium lactate) into glucose was statistically significant with respect to the baseline when the liver cells were isolated and recovered (rat liver cells, basal: 25.37 +/- 3.73; pyruvate: 54.04 +/- 7.98; DL-alanine: 62 +/- 10.07; fructose: 264.67 +/- 20.51; DL-lactate: 78.05 +/- 17.99 mmoles/10(6) cels, means +/- SEM). Urea production from 5 mM DL-glutamine was statistically highly significant to the basal with rat liver cell isolated and recovered (basal: 160.60 +/- 3.76; DL-glutamine: 608.47 +/- 16.15 mmoles/10(6) cells; means +/- SEM). The results obtained suggest that liver cells isolated with Ca2+ and K+ chelating agents used as described above are of value for biochemical studies.
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PMID:Isolation of liver cells with Ca2+ and K+ chelating agents. Biochemistry and cell morphology. 718 90

The concentrations of many components of the cerebrospinal fluid are much lower than in serum. Values for sodium, potassium, calcium and magnesium are similar to those in other primates. Activities of alkaline phosphatase (18.7 U/1), creatine phosphokinase (9.9 U/1), glutamine oxaloacetate transaminase (13.7 U/1), glutamine pyruvate transaminase (9.2 U/1), gamma-glutamyl transpeptidase (3.1 U/1), alpha-hydroxybutyrate dehydrogenase (33.0 U/1, lactate dehydrogenase (47.2 U/1) and sorbitol dehydrogenase (3.9 U/1), and levels of zinc (1.0 mu g/dl), copper (2.6 mu g/dl), iron (35.9 mu g/dl) and triglycerides (33.2 mu g/dl) have not previously been reported for this species. Values for free amino acids, total protein, creatinine and urea nitrogen are compared with those of other primates. The use of gradient pore polyacrylamide gel electrophoresis for analysing proteins of CSF is described.
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PMID:Some normal clinical chemistry values for cerebrospinal fluid of the rhesus monkey (Macaca mulatta). 727 25

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