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)

The present study was conducted to determine the concentration of amino acids in the cerebrospinal spinal fluid (CSF) and the activities of two tramsaminases: glutamic oxaloacetate transaminase (GOT) and glutamic pyruvate transaminase (GPT) in human Alzheimer disease (AD) and normal brain. L-glutamic acid, L-glutamine and L-alanine are the most abundant amino acids in the CSF (50-55% of total amino acids). L-glutamine occurs at much higher levels in Alzheimer CSF compared to the normal CSF (229+/-91.8 nmol/ml in AD versus 107+/-47.2 nmol/ml in normal; P=0.0041). In contrast, L-aspartate occurs at significantly lower concentrations in Alzheimer CSF than normal CSF (46.1+/-25.7 nmol/ml in Alzheimer versus 95.2+/-52.6 nmol/ml in normal; P=0.020). In Alzheimer brain (frontal, parietal and occipital cortices) GOT is present at significantly higher activities than in normal brain cortices (about 1.5 times higher; P<0.01). No significant differences for GPT activity occurred between normal and AD brain. Since CSF receives amino acids from brain tissues, and since GOT catalyzes the conversion of L-aspartate to L-glutamate, the higher concentrations of L-glutamine (which is derived from L-glutamate), and the lower concentrations of L-aspartate found in Alzheimer CSF could be considered as a consequence of the higher activity of GOT that occurs in Alzheimer brain.
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PMID:Amino acids and transaminases activity in ventricular CSF and in brain of normal and Alzheimer patients. 1603 64

The administration of glutamine before experimental ischemia/reperfusion (I/R) has been shown to protect intestinal, pulmonary, and myocardial tissue by inducing heat shock proteins (HSP). However, it is not known whether glutamine is protective for all organs. We therefore tested whether pretreatment with glutamine reduces injury following hepatic I/R in rats. Male lean Zucker rats were pretreated with either glutamine (0.75 g/kg intraperitoneally, n = 6) or saline (n = 6), 24 and 6 hours before ischemia. Seventy percent of the liver was exposed to 75 minutes of warm ischemia followed by 24 hours reperfusion. Liver enzymes, histology, neutrophil accumulation, survival, and heat shock protein (HSP) 70 induction were examined. Glutamine administration did not reduce liver injury. In both groups, 5 of 6 animals survived 24 hours of reperfusion. There was no difference in serum transaminase levels with AST 15113 +/- 4336 U/L (glutamine) vs. 17695 +/- 8531 U/L (control, P > 0.05), and ALT 7763 +/- 2524 (glutamine) U/L vs. 5884 +/- 2063 U/L (control, P > 0.05). The degree of neutrophil accumulation and necrosis was not different between groups at 24 hours of reperfusion. Pretreatment did not result in HSP70 upregulation in any of the groups. Pretreatment with glutamine did not reduce hepatic ischemia/reperfusion injury. The lack of protection was associated with an absence of HSP70 upregulation prior to ischemia.
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PMID:Glutamine does not protect against hepatic warm ischemia/reperfusion injury in rats. 1645 56

Alanine is the most effective precursor for gluconeogenesis among amino acids, and the initial reaction is catalyzed by alanine aminotransferase (AlaAT). Although the enzyme activity increases during fasting, this effect has not been studied extensively. The present study describes the purification and characterization of an isoform of AlaAT from rat liver under fasting. The molecular mass of the enzyme is 17.7 kD with an isoelectric point of 4.2; glutamine is the N-terminal residue. The enzyme showed narrow substrate specificity for L-alanine with Km values for alanine of 0.51 mM and for 2-oxoglutarate of 0.12 mM. The enzyme is a glycoprotein. Spectroscopic and inhibition studies showed that pyridoxal phosphate (PLP) and free -SH groups are involved in the enzymatic catalysis. PLP activated the enzyme with a Km of 0.057 mM.
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PMID:A novel low molecular weight alanine aminotransferase from fasted rat liver. 2116 50

In the seedcoats of developing pea seeds, the maximal activities of asparaginase (EC 3.5.1.1) and aspartate: alpha-ketoglutarate aminotransferase (EC 2.6.1.1) are attained early in development, before the embryo has expanded to fill the embryo sac. These two enzyme activities could account for the early absence of asparagine and aspartate from the fluid secreted by the seedcoats into the embryo sac.CHANGES IN THE ACTIVITIES OF ALANINE: alpha-ketoglutarate aminotransferase (EC 2.6.1.2), glutamate dehydrogenase (EC 1.4.1.3), glutamine synthetase (EC 6.3.1.2), and glutamate synthase (EC 1.4.1.13) have also been measured, in cotyledons as well as seedcoats. On a fresh weight basis, the highest activities of asparaginase and both aminotransferases developed in the seedcoats, whereas the highest activities of the remaining enzymes developed in the cotyledons.The data indicate that the amide groups of imported asparagine and glutamine are metabolized differently, largely by asparaginase and glutamate synthase, respectively. The NH(4) (+) released by the action of asparaginase is evidently reassimilated in cotyledon cells by the joint action of glutamate dehydrogenase, glutamine synthetase, and glutamate synthase. The data emphasize the central importance of alpha-ketoglutarate-glutamate cycling in the redistribution of amino groups associated with the net synthesis of amino acids and reserve proteins.
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PMID:Changes in Activities of Enzymes of Nitrogen Metabolism in Seedcoats and Cotyledons during Embryo Development in Pea Seeds. 1666 21

Vacuoles of internodal cells of Chara australis (or Chara corallina) were loaded with a 10 millimolar amount of various amino acids by a perfusion method and incubated under continuous light. After 20 to 24 hours, the cell sap was collected, and free amino acids in it and the rest of the cell (cytoplasm) were analyzed. The only amino acid metabolized completely was alanine. About 40 to 80% of the aspartic acid, glutamine, serine, and glycine were metabolized, whereas less than 30% of the threonine, asparagine, isoasparagine, isoleucine, phenylalanine, gamma-aminobutyric acid, lysine, and arginine were metabolized. The figure for glutamic acid fluctuated between 10 and 100%. The main metabolites of alanine were glutamine, glycine and ammonia, which accumulated in the vacuole. Alanine utilization was not affected by l-methionine-d,l-sulfoximine or azaserine, but was strongly inhibited by aminooxyacetate. The cell extract contained enough alanine aminotransferase activity to account for the rate of alanine metabolism.
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PMID:Metabolic Conversion of Amino Acids Loaded in the Vacuole of Chara australis Internodal Cells. 1666 6

Nuclear magnetic resonance spectroscopy was utilized to study the metabolism of [1-(13)C]glucose in mycelia of the ectomycorrhizal ascomycete Sphaerosporella brunnea. The main purpose was to assess the biochemical pathways for the assimilation of glucose and to identify the compounds accumulated during glucose assimilation. The majority of the (13)C label was incorporated into mannitol, while glycogen, trehalose and free amino acids were labeled to a much lesser extent. The high enrichment of the C1/C6 position of mannitol indicated that the polyol was formed via a direct route from absorbed glucose. Randomization of the (13)C label was observed to occur in glucose and trehalose leading to the accumulation of [1,6-(13)C]trehalose and [1,6-(13)C]glucose. This suggests that the majority of the glucose carbon used to form trehalose was cycled through the metabolically active mannitol pool. The proportion of label entering the free amino acids represented 38% of the soluble (13)C after 6 hours of continuous glucose labeling. Therefore, amino acid biosynthesis is an important sink of assimilated carbon. Carbon-13 was incorporated into [3-(13)C]alanine and [2-(13)C]-, [3-(13)C]-, and [4-(13)C]glutamate and glutamine. From the analysis of the intramolecular (13)C enrichment of these amino acids, it is concluded that [3-(13)C]pyruvate, arising from [1-(13)C]glucose catabolism, was used by alanine aminotransferase, pyruvate dehydrogenase, and pyruvate carboxylase (or phosphoenolpyruvate carboxykinase). Intramolecular (13)C labeling patterns of glutamate and glutamine were similar and are consistent with the operation of the Krebs cycle. There is strong evidence for (a) randomization of the label on C2 and C3 positions of oxaloacetate via malate dehydrogenase and fumarase, and (b) the dual biosynthetic and respiratory role of the citrate synthase, aconitase, and isocitrate dehydrogenase reactions. The high flux of carbon through the carboxylation (presumably pyruvate carboxylase) step indicates that CO(2) fixation is an important component of the carbon metabolism in S. brunnea, and it is likely that this anaplerotic role is particularly prevalent during NH(4) (+) assimilation. The most relevant information resulting from this investigation is (a) the occurrence of the mannitol cycle, (b) a large part of the trehalose pool is synthesized after the cycling of glucose-carbon through the mannitol cycle, and (c) pyruvate (or phosphoenolpyruvate) carboxylation plays an important role in the primary metabolism of glucose-fed mycelia.
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PMID:Carbohydrate and Amino Acid Metabolism in the Ectomycorrhizal Ascomycete Sphaerosporella brunnea during Glucose Utilization : A C NMR Study. 1666 12

Previous research showed that nano-TiO2 could significantly promote photosynthesis and greatly improve growth of spinach, but we also speculated that an increase of spinach growth by nano-TiO2 treatment might be closely related to the change of nitrogen metabolism. The effects of nanoanatase TiO2 on the nitrogen metabolism of growing spinach were studied by treating them with nano-anatase TiO2. The results showed that nano-anatase TiO2 treatment could obviously increase the activities of nitrate reductase, glutamate dehydrogenase, glutamine synthase, and glutamic-pyruvic transaminase during the growing stage. Nano-anatase TiO2 treatment could also promote spinach to absorb nitrate, accelerate inorganic nitrogen (such as NO3--N and NH4+-N) to be translated into organic nitrogen (such as protein and chlorophyll), and enhance the fresh weight and dry weights.
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PMID:Influences of nano-anatase TiO2 on the nitrogen metabolism of growing spinach. 1675 45

The African sharptooth catfish Clarias gariepinus lives in freshwater, is an obligatory air-breather, and can survive on land during drought. The objective of this study was to elucidate the mechanism of acute ammonia toxicity in C. gariepinus, and to examine whether methionine sulfoximine [MSO; an inhibitor of glutamine synthetase (GS)] or MK801 [an antagonist of N-methyl d-aspartate type glutamate (NMDA) receptors] had protective effects against acute ammonia toxicity in this fish. After 48 h of exposure to a sublethal concentration (75 mmoll(-1)) of environmental ammonia, the brain glutamine and ammonia contents in C. gariepinus increased to 15 micromol g(-1) and 4 micromol g(-1), respectively. Thus, C. gariepinus detoxified ammonia to glutamine and could tolerate high levels of glutamine in its brain. After C. gariepinus was injected intraperitoneally with a sublethal dose of ammonium acetate (CH(3)COONH(4); 8 micromol g(-1) fish) followed with emersion, brain ammonia and glutamine contents increased continuously during the subsequent 24-h period, reaching 7 and 18 micromol g(-1), respectively, at hour 24. These results suggest that when confronted with acute ammonia toxicity, the survival of C. gariepinus was crucially determined by its high tolerance of ammonia and high capacity to detoxify ammonia to glutamine in the brain. For fish injected with a sublethal dose of CH(3)COONH(4) (10 micromol g(-1) fish) followed with immersion, there were transient but significant increases in brain ammonia and glutamine contents, which peaked at hour 2 (4 micromol g(-1)) and hour 6 (6 micromol g(-1)), respectively. From these results, it can be deduced that C. gariepinus accumulated glutamine in preference to ammonia in its brain. By contrast, for fish injected with a lethal dose (20 micromol g(-1) fish) of CH(3)COONH(4) followed with immersion, the brain ammonia content increased drastically to 10 micromol g(-1) after 30 min, while the brain glutamine content remained relatively low at 5 micromol g(-1). Therefore, it can be concluded that increased synthesis and accumulation of glutamine in the brain was not the major cause of death in C. gariepinus confronted with acute ammonia toxicity. The determining factor of acute ammonia toxicity appeared to be the rate of ammonia build-up in the brain. MK801 (2 microg g(-1) fish) had no protective effect on C. gariepinus injected with a lethal dose of CH(3)COONH(4) (20 micromol g(-1) fish) indicating that activation of NMDA receptors might not be involved. By contrast, the prior administration of MSO (100 microg g(-1) fish) reduced the mortality rate from 100% to 80% and at the same time prolonged the time of death significantly from 27 min to 48 min. However, the protective effect of MSO was apparently unrelated to the inhibition of glutamine synthetase and prevention of glutamine accumulation in the brain. Instead, MSO affected activities of glutamate dehydrogenase and alanine aminotransferase and suppressed the rate of ammonia build up in the brain of fish injected with a lethal dose of CH(3)COONH(4).
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PMID:Ammonia toxicity and tolerance in the brain of the African sharptooth catfish, Clarias gariepinus. 1738 43

A new prognostic criterion was developed to evaluate the severity of different forms of viral hepatitis, by studying zinc metabolism. In patients with viral hepatitis, zinc metabolic disturbances were ascertained to occur concurrently with pigment, protein, and carbohydrate metabolic disturbances, an increase in the activity of some serum enzymes (glutamine alkaline transferase, glutamine pyruvate transferase, alanine aminotransferase), and a reduction in hepatic antitoxic function. The indicator of normalization of zinc metabolism may be an additional prognostic criterion for evaluating the full recovery of a patient. The studied criterion enables the chronic pattern of viral hepatitis to be predicted in convalescents after their discharge from hospital.
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PMID:[Some aspects of human mineral metabolic disturbances in viral hepatitis of various genesis]. 1743 3

It has been proposed that key enzymes of ureagenesis and the alanine aminotransferase activity predominate in periportal hepatocytes. However, ureagenesis from alanine, when measured in the perfused liver, did not show periportal predominance and even the release of the direct products of alanine transformation, lactate and pyruvate, was higher in perivenous cells. An alternative way of analyzing the functional distributions of alanine aminotransferase and the urea cycle along the hepatic acini would be to measure alanine and urea production from precursors such as lactate or pyruvate plus ammonia. In the present work these aspects were investigated in the bivascularly perfused rat liver. The results of the present study confirm that gluconeogenesis and the associated oxygen uptake tend to predominate in the periportal region. Alanine synthesis from lactate and pyruvate plus ammonia, however, predominated in the perivenous region. Furthermore, no predominance of ureagenesis in the periportal region was found, except for conditions of high ammonia concentrations plus oxidizing conditions induced by pyruvate. These observations corroborate the view that data on enzyme activity or expression alone cannot be extrapolated unconditionally to the living cell. The current view of the hepatic ammonia-detoxifying system proposes that the small perivenous fraction of glutamine synthesizing perivenous cells removes a minor fraction of ammonia that escapes from ureagenesis in periportal cells. However, since urea synthesis occurs at high rates in all hepatocytes with the possible exclusion of those cells not possessing carbamoyl-phosphate synthase, it is probable that ureagenesis is equally important as an ammonia-detoxifying mechanism in the perivenous region.
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PMID:Flexibility of the hepatic zonation of carbon and nitrogen fluxes linked to lactate and pyruvate transformations in the presence of ammonia. 1769 Jan 75

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