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 activities of citrate synthase and NAD+-linked and NADP+-linked isocitrate dehydrogenases were measured in nervous tissue from different animals in an attempt to provide more information about the citric acid cycle in this tissue. In higher animals the activities of citrate synthase are greater than the sum of activities of the isocitrate dehydrogenases, whereas they are similar in nervous tissues from the lower animals. This suggests that in higher animals the isocitrate dehydrogenase reaction is far-removed from equilibrium. If it is assumed that isocitrate dehydrogenase activities provide an indication of the maximum flux through the citric acid cycle, the maximum glycolytic capacity in nervous tissue is considerably greater than that of the cycle. This suggest that glycolysis can provide energy in excess of the aerobic capacity of the tissue. 2. The activities of glutamate dehydrogenase are high in most nervous tissues and the activities of aspartate aminotransferase are high in all nervous tissue investigated. However, the activities of alanine aminotransferase are low in all tissues except the ganglia of the waterbug and cockroach. In these insect tissues, anaerobic glycolysis may result in the formation of alanine rather than lactate.
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PMID:Activities of citrate synthase, NAD+-linked and NADP+-linked isocitrate dehydrogenases, glutamate dehydrogenase, aspartate aminotransferase and alanine aminotransferase in nervous tissues from vertebrates and invertebrates. 0 Oct 3

The cerebral metabolic effects of 2.5, 5, 7.5, 10, 20, 30 and 60 min exposure to 1% CO were studied in lightly anesthetized rats by measurement of cerebral cortical contents of selected glycolytic and citric acid cylce intermediates, as well as tissue energy phosphates. The initial change in the glycolytic sequence occurred at 2.5 min with decreases in tissue glucose and glucose-6-phosphate and increases in fructose-1-6-diphosphate which indicated an activation of phosphofructokinase and hexokinase. The "crossover" pattern between glucose-6-phosphate and fructose-1,6-diphosphate was present at 5, 7.5 and 10 min, but not at 20, 30 and 60 min and thus confirmed previous observations that detection of phosphofructokinase activation in acute unifactorial cerebral hypoxia requires tissue study during the early phases of the experimental exposure. The initial activation of phosphofructokinase occurred in the absence of detectable changes in the tissue content of ATP, ADP, AMP or phosphocreatine and therefore suggested that an imbalance of tissue energy homeostasis is not a prerequisite for the activation of glycolysis in CO intoxication. One percent CO resulted in an increasing malate/oxaloacetate ratio at 5 min, followed by a decrease in alpha-ketoglutarate and aspartate at 7.5 min which suggested a shift in the aspartate aminotransferase reaction towards the replenishment of oxaloacetate removed via the malate dehydrogenase reaction. Subsequent increases in alpha-ketoglutarate at 10, 20, 30 and 60 min were associated with increases in alanine, indicating a contributing role for a secondary shift of the alanine aminotransferase reaction in the replenishment of alpha-ketoglutarate. A comparison of the CO induced changes in the glycolytic and citric acid cycle pathways with those seen in acute hypoxemia indicates no basic qualitative differences in the metabolic responses of brain tissue to the two conditions.
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PMID:Cerebral carbohydrate metabolism during acute carbon monoxide intoxication. 1 62

Protein is not normally an important energy fuel for exercising muscle. In spite of this, there is a significant increase in the rate of amino acid catabolism during exercise. This is secondary to the exercise-induced increase in several metabolic processes, such as hepatic gluconeogenesis and the citric acid cycle, where amino acid carbon is utilized. The suppression of protein synthesis during an exercise bout leaves amino acids available for catabolism. There is some evidence that basal amino acid concentrations in plasma and muscle may be higher in trained than in untrained individuals. In the rat, the concentration of free amino acids is higher in slow-twitch than in fast-twitch muscles. With short-term exercise, the transamination of glutamate by alanine aminotransferase leads to increased levels of alanine in muscle and plasma, and an increased release of alanine from the muscle. At the same time, the muscle and plasma glutamate concentrations are markedly decreased. The plasma glutamine level is elevated with short-term exercise, but changes in muscle glutamine concentration are more variable. With prolonged exercise, there is a depletion of the plasma amino acid pool, which may be explained by an increased consumption in organs other than muscle. With the exception of alanine, we found, however, that the muscle levels of free amino acids are kept stable throughout a 3.5-h exercise period. There is a significant activation of branched-chain amino acid metabolism with prolonged exercise, and the current data indicate that this is more pronounced in endurance-trained subjects than in untrained controls.
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PMID:Effect of exercise on amino acid concentrations in skeletal muscle and plasma. 196 May 12

To determine whether respiratory muscles undergo alterations in enzyme activities of energy metabolism as a result of increased mechanical activity, adult male Wistar rats were subjected to a prolonged endurance training program. Analysis off maximal enzyme activity patterns in the diaphragm following 15 weeks of extreme training (final running duration: 210 min per day, 27 m.min-1 at 15 degrees grade, indicated significant reductions in the marker enzymes of the citric acid cycle (citrate synthase), glycolysis (pyruvate kinase, PK; lactate dehydrogenase, LDH), ketone body utilization (3-keto acid: CoA transferase) and transamination (glutamate pyruvate transaminase, GPT). No changes were found for the enzymes of glycogenolysis (phosphorylase, PHOSPH), glycolysis (glyceraldehyde phosphate dehydrogenase, GAPDH), glucose phosphorylation (hexokinase, HK) and beta-oxidation (3-hydroxyacyl: CoA dehydrogenase, HAD) following training. In contrast, in the external intercostal muscle, increases in the range of 57-77% were noted for the enzymes CS and HAD, whereas in the internal intercostal muscles no training induced alteration was evident for these enzymes. For both the intercostal muscles, a consistent trend was noted towards a reduction in all of the glycolytic enzymes investigated, however, significantly lower values were recorded for only PK and LDH in the internal intercostals. GPT was increased in the internal intercostal muscles. These findings indicate that the response pattern observed in the enzyme activities studied following training are to some degree specific to the respiratory muscle investigated.
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PMID:Differential response of enzyme activities in rat diaphragm and intercostal muscles to exercise training. 337 43

The effects of a homologous series of fatty acids with a chain length of two to eight on the rate of pyruvate oxidation and covalent interconversions of the pyruvate dehydrogenase complex (PDH) were studied in isolated perfused rat hearts. In the Langendorff-perfused heart beating at 5 Hz against an aortic pressure of 59 mmHg (7.85 kPa), a positive linear correlation was found between the fraction of PDH existing in the active non-phosphorylated form of pyruvate dehydrogenase complex (PDHa) and the pyruvate oxidation rate until the PDHa fraction increased to 48%. This value resulted in a saturation of the citric acid cycle and further activation did not increase the metabolic flux. The PDHa content of the tissue was higher during infusion of odd carbon number fatty acids than during infusion of even carbon number fatty acids. Propionate caused an almost maximal (93%) activation of PDH. A negative correlation was found between the mitochondrial NADH/NAD+ ratio and the PDHa content. A negative correlation was also found between the acetyl-CoA/CoA ratio and the tissue PDHa content. The rate of labelled CO2 production, the specific radioactivity of tissue alanine and the metabolic balance sheet demonstrated that the alanine aminotransferase reaction in the total tissue does not reach equilibrium with the mitochondrial pyruvate pool during propionate oxidation, but the equilibrium is reached during the oxidation of even-number carbon fatty acids. This suggests that pyruvate is formed from propionate-derived metabolites also in the cytosol, although the primary metabolism of propionate occurs in the mitochondria. The results indicate that the rate of pyruvate oxidation in the myocardium is mainly regulated by covalent interconversion of PDH. During propionate oxidation the PDHa content in the tissue can increase beyond the point of saturation of the citric acid cycle and this indicates that feedback inhibition of the enzyme is rate-determining under these conditions.
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PMID:Regulation of pyruvate dehydrogenase during infusion of fatty acids of varying chain lengths in the perfused rat heart. 408 5

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

The activities of some enzymes of glycolysis, the citric acid cycle, and amino acid metabolism have been measured in the fetal guinea pig heart over the last third of gestation and correlated with heart ultrastructural development. There is little change in glycolytic enzyme activity except for a two- to threefold increase in phosphofructokinase activity. Mitochondrial content and enzyme activities are low in the early fetal heart, and, although content is similar in the late fetus and adult, enzyme activities increase twofold postnatally, indicating fetal heart mitochondria are incompletely developed. The activities of aspartate and particularly alanine aminotransferase are low in the fetal heart. Over the last third of gestation the myofibrillar content of the fetal myocyte increases twofold to the adult value by term. Associated with this is a fourfold rise in myofibrillar and sarcoplasmic reticulum Ca2+-ATPase activity. Na+-K+-ATPase activity is similar in the late fetal and adult heart but one-third lower in the early fetal heart.
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PMID:Ultrastructural and enzymatic development of fetal guinea pig heart. 621 93

The sex accessory gland functions were studied in 1-12 months vasectomized langur monkeys. Seminal plasma fructose did not change. Semen volume, magnesium, and citric acid decreased transitionally up to 6 months. A significant decrease in LDH and transaminases (GOT, GPT) following vasectomy indicated an altered secretory activity of the accessory sex organs.
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PMID:Vasectomy in langur monkeys (Presbytis entellus entellus dufresne). 662 49

CO2 fixation was measured in cultured astrocytes isolated from neonatal rat brain to test the hypothesis that the activity of pyruvate carboxylase influences the rate of de novo glutamate and glutamine synthesis in astrocytes. Astrocytes were incubated with 14CO2 and the incorporation of 14C into medium or cell extract products was determined. After chromatographic separation of 14C-labelled products, the fractions of 14C cycled back to pyruvate, incorporated into citric acid cycle intermediates, and converted to the amino acids glutamate and glutamine were determined as a function of increasing pyruvate carboxylase flux. The consequences of increasing pyruvate, bicarbonate, and ammonia were investigated. Increasing extracellular pyruvate from 0 to 5 mM increased pyruvate carboxylase flux as observed by increases in the 14C incorporated into pyruvate and citric acid cycle intermediates, but incorporation into glutamate and glutamine, although relatively high at low pyruvate levels, did not increase as pyruvate carboxylase flux increased. Increasing added bicarbonate from 15 to 25 mM almost doubled CO2 fixation. When 25 mM bicarbonate plus 0.5 mM pyruvate increased pyruvate carboxylase flux to approximately the same extent as 15 mM bicarbonate plus 5 mM pyruvate, the rate of appearance of [14C] glutamate and glutamine was higher with the lower level of pyruvate. The conclusion was drawn that, in addition to stimulating pyruvate carboxylase, added pyruvate (but not added bicarbonate) increases alanine aminotransferase flux in the direction of glutamate utilization, thereby decreasing glutamate as pyruvate + glutamate --> alpha-ketoglutarate + alanine. In contrast to previous in vivo studies, the addition of ammonia (0.1 and 5 mM) had no effect on net 14CO2 fixation, but did alter the distribution of 14C-labelled products by decreasing glutamate and increasing glutamine. Rather unexpectedly, ammonia did not increase the sum of glutamate plus glutamine (mass amounts or 14C incorporation). Low rates of conversion of alpha-[14C]ketoglutarate to [14C]glutamate, even in the presence of excess added ammonia, suggested that reductive amination of alpha-ketoglutarate is inactive under conditions studied in these cultured astrocytes. We conclude that pyruvate carboxylase is required for de novo synthesis of glutamate plus glutamine, but that conversion of alpha-ketoglutarate to glutamate may frequently be the rate-limiting step in this process of glutamate synthesis.
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PMID:Role of pyruvate carboxylase in facilitation of synthesis of glutamate and glutamine in cultured astrocytes. 937 62

A comparative assay of nitrogen metabolism enzymes in the Yarrowia lipolytica mutant N1 grown under conditions promoting the overproduction of either alpha-ketoglutaric acid (KGA) or citric acid showed that the overproduction of KGA correlates with an increase in the activities of the NAD- and NADP-linked glutamate dehydrogenase, glutamic-pyruvic transaminase, and glutamic-oxaloacetic transaminase reactions. These reactions are likely to be responsible for the overproduction of KGA by this mutant. In contrast, the overproduction of citric acid correlated with a decline in the activities of the NAD- and NADP-linked glutamate dehydrogenases and with an increase in the activities of glutamine synthetase and glutamate synthase.
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PMID:[Biochemical characterization of the yeast Yarrowia lipolytica overproducing carboxylic acids from ethanol. Nitrogen metabolism enzymes]. 1452 35

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