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)

Troglitazone was studied in pH-sensitive LLC-PK1-F+ cells to determine the effect on pHi and glutamine metabolism as well as the role of peroxisome proliferator-activated receptor (PPARgamma)-dependent and PPARgamma-independent signaling pathways. Troglitazone induces a dose-dependent cellular acidosis that occurs within 4 min and persists over 18 h as a result of inhibiting Na+/H+ exchanger-mediated acid extrusion. Cellular acidosis was associated with glutamine-dependent augmented [15N]ammonium production and decreased [15N]alanine formation from 15N-labeled glutamine. The shift in glutamine metabolism from alanine to ammoniagenesis appears within 3 h and is associated after 18 h with both a reduction in assayable alanine aminotransferase (ALT) activity as well as cellular acidosis. The relative contribution of troglitazone-induced cellular acidosis vs. the decrease in assayable ALT activity to alanine production could be demonstrated. The PPARgamma antagonist bisphenol A diglycide ether (BADGE) reversed both the troglitazone-induced cellular acidosis and ammoniagenesis but enhanced the troglitazone reduction of assayable ALT activity; BADGE also blocked troglitazone induction of peroxisome proliferator response element-driven firefly luciferase activity. The protein kinase C (PKC) inhibitor chelerythrine mimics troglitazone effects, whereas phorbol ester reverses the effects on ammoniagenesis consistent with troglitazone negatively regulating the DAG/PKC/ERK pathway. Although functional PPARgamma signaling occurs in this cell line, the major troglitazone-induced acid-base responses appear to be mediated by pathway(s) involving PKC/ERK.
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PMID:Troglitazone acts by PPARgamma and PPARgamma-independent pathways on LLC-PK1-F+ acid-base metabolism. 1450 76

The effects of melatonin and dimethylsulfoxide (DMSO) on liver and brain oxidative stress, hepatic failure and blood urea nitrogen (BUN) level changes produced by a single dose of thioacetamide (TAA) in Wistar rats were studies. A dose of either melatonin (3 mg kg(-1)day(-1)) or DMSO (2 g kg(-1)day(-1)) was injected for 3 days before and for 2 days after the administration of TAA (150 mg kg(-1) i.p.). Blood samples were taken from the neck vascular in order to determine ammonium, BUN and liver enzymes. We estimated lipid peroxidation products, reduced glutathione (GSH) content and catalase activity in liver and brain homogenates. TAA caused significant increases in ammonium and in the levels of aspartate aminotransferase (AST), alanine aminotransferase (ALT) and lactate dehydrogenase (LDH) enzymes, while it decreased BUN values. TAA also increased lipid peroxidation product levels, but reduced GSH content and catalase activity in the liver and brain. Both melatonin and DMSO, although melatonin more significantly, decreased the intensity of the changes produced by the administration of TAA alone. Furthermore, melatonin alone or combined with TAA increased the BUN levels and decreased the ammonia values compared with control animals. These results support the antioxidative and neuro-/hepato-protective action of melatonin and a lesser action of DMSO. Likewise, these data seem to support the hypothesis of an effect of melatonin on urea synthesis.
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PMID:Hepato- and neurotoxicity induced by thioacetamide: protective effects of melatonin and dimethylsulfoxide. 1589 75

Prophylactic and therapeutic management of portosystemic encephalopathies is based on protein restriction in the diet, and the use of lactulose and antibiotics such as metronidazole. These actions intend to reduce the main source of intestinal ammonia production and release into the systemic circulation. The aim of this study was to evaluate the medium-term effects of mesocaval shunt on the pharmacokinetics of metronidazole in rats with healthy livers. Male Lewis rats were divided into two groups. The first group was subjected to mesocaval shunt (MCS) and the other employed as a control. The following tests were carried out in both groups: metronidazole pharmacokinetics, determination of ALT, AST, albumin, urea and ammonium, liver weight and histomorphology. A loss in body and liver weight was registered in rats subjected to MCS. AST levels also increased compared to controls. Significant differences in almost all pharmacokinetic parameters were detected between MCS and control rats, especially in Kel, AUC and Cmax. Modifications in metronidazole pharmacokinetics and liver weight changes without microstructural modification secondary to MCS were found. We suggest that individual drug-monitoring and pharmacokinetic analysis must be carried out in metronidazole medicated patients with modifications in portal circulation with or with out macro or micro liver structural alterations.
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PMID:Effects of mesocaval shunt on the pharmacokinetics of metronidazole in young rats. 1641 64

Changes in the activity of a number of enzymes concerned with amino acid synthesis and metabolism were recorded for the endosperm, testa pericarp, and embryo of developing barley (Hordeum distichum L.) grains. Both glutamate-pyruvate transaminase and glutamate-oxaloacetate transaminase activities were present in all tissues and at all ages examined. Glutamate dehydrogenase activity was largely confined to endosperm while glutamine synthetase activity was mainly in the testa pericarp.Ammonium ion concentration was maximal in endosperm by 20 days after anthesis. Glutamate concentration varied in endosperm and was in the range of 3.5 to 8.5 mm between 20 and 45 days after anthesis. Significant levels of ammonium ion and glutamate were also present in the testa pericarp over the major part of the developmental period.
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PMID:Metabolism of Ammonium Ion and Glutamate in Relation to Nitrogen Supply and Utilization during Grain Development in Barley. 1666 Mar 38

Alanine aminotransferase (AlaAT, EC 2.6.1.2) is an enzyme that is induced under anaerobic conditions in cereal roots. In barley (Hordeum vulgare L.) roots, there are a number of isoforms of AlaAT. We have identified the anaerobically induced isoform and have purified it to homogeneity. The isolation procedure involved a two-step ammonium sulfate precipitation, gel filtration, ion-exchange chromatography, and chromatofocusing. The enzyme was purified approximately 350-fold to a specific activity of 2231 units/milligram protein. The apparent molecular masses of the native and sodium dodecyl sulfate-denatured AlaAT proteins are 97 and 50 kilodaltons, respectively, indicating that the native enzyme is probably a homodimer. AlaAT has a number of interesting characteristics when compared with other plant aminotransferases. AlaAT does not require the presence of pyridoxyl-5-phosphate to retain its activity, and it appears to be very specific in the reactions that it will catalyze.
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PMID:Purification and characterization of an anaerobically induced alanine aminotransferase from barley roots. 1666 68

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

In order to evaluate the effects of the nitrates toxicity, a study has been carried out on 45 workers of storage and distribution agricultural manures, exposed to nitrate derivatives. Another experimental study has carried out in laboratory on male Albinos wistar rats. These latter were treated with ammonium nitrate (NH(4)NO(3)) introduced by gavage with three increasing concentrations 200, 400 and 600 mg/kg of body weight during three weeks. The biochemical and hematological results on workers showed that no poisoning was announced within this complex, in spite of the observation of kidneys inflammations among about 50% of the population. The chemical treatment of the rats causes a variation in the biochemical and biological parameters: an increase of the hepato-somatic ratio especially in the rats treated by important doses. Moreover, the serum concentration in glucose, cholesterol, creatinin, lactate dehydrogenase and in transaminases (GOT, GPT) was increased significantly compared to the witness in all the treated rats. At the end, the results obtained highlight the detoxifier potential expressed by the reduction in the glutathione level in the deferent organs such as the liver, the kidneys, the spleen, the intestines and the testicles. According to the obtained results, it can be concluded that: (1) living organism can adapt to the lows doses of nitrate for a long time. This is observed in the workers exposed to deferent derivatives of nitrates; (2) high nitrate amounts involve important biological variations even if the exposure time is short. This is proven in the laboratory animals.
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PMID:[Toxicological effects of nitrate: biological study in human and animal]. 1762 19

Lead (Pb(2+)) is a well-known highly toxic element. The mechanisms of the Pb(2+) toxicity are not well understood for nitrogen metabolism of higher plants. In this paper, we studied the effects of various concentrations of PbCl(2) on the nitrogen metabolism of growing spinach. The experimental results showed that Pb(2+) treatments significantly decreased the nitrate nitrogen (NO(-)(3)-N) absorption and inhibited the activities of nitrate reductase, glutamate dehydrogenase, glutamine synthase, and glutamic-pyruvic transaminase of spinach, and inhibited the synthesis of organic nitrogen compounds such as protein and chlorophyll. However, Pb(2+) treatments increased the accumulation of ammonium nitrogen NH(+)(4)-N)in spinach cell. It implied that Pb(2+) could inhibit inorganic nitrogen to be translated into organic nitrogen in spinach, thus led to the reduction in spinach growth.
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PMID:Influences of lead (II) chloride on the nitrogen metabolism of spinach. 1795 1

As part of our attempt to develop a hybrid artificial liver support system using cultured hepatocytes, we investigated the long-term metabolic function of hepatocytes incubated in a packed-bed type reactor using reticulated polyvinyl formal (PVF) resin as a supporting material. Long-term (up to 1 week) perfusion culture experiments using the packed-bed reactor (20 mm i.d.) loaded with 500 PVF resin cubes (mean pore size 250 mum, 2 x 2 x 2 mm), together with conventional monolayer culture experiments as controls, were performed in serum-free or serum-containing medium. Ammonium metabolism and urea synthesis activities were evaluated quantitatively based on reaction kinetic analyses. Initial rates of ammonium metabolism and urea-N synthesis, as well as GPT enzyme activities, were adopted as indexes of the metabolic performance of the reactor and activities of the cultured hepatocytes.When serum-free medium was used in the perfusion cultures, ammonium metabolic and urea-N synthetic rates showed significant decay with elapse of the culture period, being less than 10% of those measured on day 1. This loss of activity was more prominent in the perfusion culture than in the monolayer cultures using this medium. In contrast, when serum-containing medium was used, approximately 50% of these activities obtained on day 1 were maintained even at the end of the cultures both in the perfusion and monolayer culture experiments.We concluded that the packed-bed reactor using PVF resin enabled high-density culture of hepatocytes, and showed a satisfactory ability to maintain the metabolic function of immobilized hepatocytes for relatively long periods of up to 1 week. This type of reactor is thus considered to represent a breakthrough in overcoming the difficulties involved in the development of a hybridtype artificial liver support system. (c) 1994 John Wiley & Sons, Inc.
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PMID:Long-Term continuous culture of hepatocytes in a packed-bed reactor utilizing porous resin. 1861 63

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