EC:2.6.1.2 - FACTA Search

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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)

Several modified nucleosides were introduced during in vitro RNA synthesis into a pre-tRNA(Ser). The pre-tRNAs were used as substrates for RNase P enzymes. No effects were observed with biotin-8-ATP or [alpha-S]-GPT, whereas with m7GTP, the cleavage reaction was completely inhibited. Analysis of pre-tRNAs which contained m7G at various positions has revealed a single base at the 5'-end of the acceptor stem where this modification absolutely prevents cleavage by catalytic M1 RNA, eukaryotic and prokaryotic RNase P holoenzymes. These results suggest that a critical contact must be made between pre-tRNA substrate and enzyme/ribozyme or that the approach of the potential cleaving agent (a positive magnesium ion) is made impossible by the positive charge at N-7 of the guanosine. In addition, we have shown that a pre-tRNA containing only m7G's can still form a complex with M1 RNA in a gel retardation assay.
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PMID:The methylation of one specific guanosine in a pre-tRNA prevents cleavage by RNase P and by the catalytic M1 RNA. 217 70

Effect of hepatectomy on the prognosis of cirrhotic rats prepared by oral administration of thioacetamide was studied from the standpoint of the reticuloendothelial function and energy metabolism of the liver. OK-432, a streptococcal preparation, was used to activate reticuloendothelial functions. Administration of OK-432 to cirrhotic rats prior to 70% hepatectomy significantly prevented the elevation of serum GOT, GPT and LDH, the prolongation of blood coagulation and the decrease of serum complement level. Hepatic ATP synthesis and RNA content were significantly increase by the use of OK-432. These findings suggest that activation of reticuloendothelial functions at the time of massive hepatectomy in cirrhotic rats may diminish hepatic injury, maintain serum complement level, and improve protein synthesis of the liver.
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PMID:Significance of activation of reticuloendothelial function after hepatectomy in cirrhotic rats. 245 61

Rats were injected intraperitoneally with CCl4 (2.5 ml/kg body wt.) and the hepatotoxicity was compared with that of rats receiving the same dose of CCl4 and an intraperitoneal injection of fructose 1,6-bisphosphate (2 g/kg body wt.). A 50-70% decrease in plasma aspartate aminotransferase and alanine aminotransferase activities was observed in the latter treatment, indicating a protective role of the sugar bisphosphate in CCl4 hepatotoxicity. The protection was accompanied by elevated hepatic activities of ornithine decarboxylase at 2, 6 and 24 h, S-adenosylmethionine decarboxylase at 6 h, and spermidine N1-acetyltransferase at 2 h. The increase in the enzymes involved in polyamine metabolism was shown in our previous work [Rao, Young & Mehendale (1989) J. Biochem. Toxicol. 4, 55-63] to correlate with increased polyamine synthesis or interconversion, which was related to the extent of hepatocellular regeneration. The hepatic contents of fructose 1,6-bisphosphate and ATP significantly decreased after CCl4 treatment, and administration of the sugar bisphosphate increased hepatic ATP. Fructose 1,6-bisphosphate, an intermediary metabolite of the glycolytic pathway, may decrease CCl4 toxicity by increasing the ATP in the hepatocytes. The ATP generated is useful for hepatocellular regeneration and tissue repair, events which enable the liver to overcome CCl4 injury.
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PMID:Protective role of fructose 1,6-bisphosphate during CCl4 hepatotoxicity in rats. 259 Jan 62

The effects of vitamin B6 on erythrocyte metabolism, erythrocyte hemoglobin O2 affinity (P50), and nonenzymatic glycosylation were studied in 15 Caucasian men with type II (non-insulin-dependent) diabetes mellitus. A control group of 13 healthy Caucasian men was also evaluated. Before treatment, diabetic subjects had low mean cell hemoglobin concentration values and increases in both erythrocyte 2,3-diphosphoglycerate (2,3-DPG) levels and erythrocyte hexokinase activities. Although all three of these changes are associated with a decrease in hemoglobin O2 (Hb-O2) affinity, P50 values were normal in diabetic subjects. Moreover, P50 values normalized to pH 7.4 (P50(7.4] were inversely related to the level of glycosylated hemoglobin (HbA1c). Both erythrocyte 2,3-DPG and erythrocyte ATP were also inversely related to HbA1c. Vitamin B6 nutriture, as determined by erythrocyte aspartate aminotransferase (AST) and alanine aminotransferase (ALT) activities, was normal in all diabetic subjects before vitamin B6 therapy. Nonetheless, HbA1c levels decreased after 6 wk of treatment with 150 mg/day pyridoxine and increased again during placebo administration. These changes were not explained by changes in fasting blood glucose. Pyridoxine therapy also decreased P50(7.4) values and increased erythrocyte AST and ALT activities but had no effect on 2,3-DPG, ATP, or the activities of hexokinase, glucose-6-phosphate dehydrogenase, and 6-phosphogluconate dehydrogenase. These observations suggest that 1) nonenzymatic glycosylation may play a role in regulating both erythrocyte metabolism and Hb-O2 affinity in diabetic subjects, and 2) vitamin B6 therapy may modify nonenzymatic glycosylation of hemoglobin in this population.
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PMID:Erythrocyte O2 transport and metabolism and effects of vitamin B6 therapy in type II diabetes mellitus. 273 64

The local and systemic pathological changes induced by an i.m. injection of 100 micrograms of Bothrops asper venom in mice were studied histologically and by following the changes in serum levels of enzymes, proteins, ATP and lactate, as well as alterations in hematocrit and clotting time. B. asper venom induced a rapid and marked increase in serum levels of creatine kinase, aspartate aminotransferase and lactate dehydrogenase, but not alanine aminotransferase or alkaline phosphatase. A local myonecrosis and hemorrhage was observed, with the lungs collapsing by 24 hr and the kidneys showing glomerular congestion and vacuolar degeneration of tubular cells. Only minor histopathological changes were observed in cardiac muscle and liver. Both ATP and lactate blood levels decreased after venom injection, whereas there were no changes in serum protein concentration. Blood incoagulability was observed 1 and 3 hr after envenomation. Antivenom neutralized venom-induced increases in serum enzyme levels following preincubation with venom, indicating that antivenom contains antibodies against tissue-damaging toxins. However, when antivenom was administered i.v. at different time intervals after venom injection, neutralization was only partial, with the exception of defibrinating activity, which was totally neutralized even after a delay of 1 hr in administering antivenom.
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PMID:Histopathological and biochemical alterations induced by intramuscular injection of Bothrops asper (terciopelo) venom in mice. 281 6

The mechanism of the periportal (p.p.) toxicity of allyl alcohol (AlOH) was investigated in p.p. and perivenous (p.v.) hepatocytes isolated by digitonin-collagenase perfusion. The distinct origin of the cell preparations was confirmed by the p.p./p.v. ratios of alanine aminotransferase (p.p./p.v. = 1.8), lactate dehydrogenase (1.3) and glutamine synthetase (0.10). The activity of alcohol dehydrogenase (ADH) was not markedly different in p.p. and p.v. cells. Both types of cells oxidized AlOH at a high but equal rate of about 3 mumol/(min.g cells). Concomitantly with rapid oxidation of 0.7 mM AlOH, glutathione (GSH) was depleted by about 95% and its secretion was completely inhibited in both cell types. Although the GSH content was partially restored during a subsequent 3-h incubation, cellular ATP and K+ content gradually decreased and the leakage of lactate dehydrogenase increased in both types of cells. However, the p.p. cells tended to resist AlOH in vitro better, probably due to their 26% higher GSH content after preincubation with L-methionine. Altering the partial pressure of oxygen in physiological range had no effect on the toxicity of AlOH. The results are contrary to the suggestions that the p.p. location of AlOH liver injury is caused by higher ADH activity or higher oxygen tension in the p.p. zone. Rather, the regiospecificity of the injury may be due to rapid uptake and oxidation of AlOH in the p.p. region.
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PMID:Allyl alcohol cytotoxicity and glutathione depletion in isolated periportal and perivenous rat hepatocytes. 283 85

Bass gill microsomal preparations contain a Mg2+-dependent Na+-stimulated ATPase activity in the absence of K+, whose characteristics are compared with those of the (Na+ + K+)-ATPase of the same preparations. The activity at 30 degrees C is 11.3 mumol Pi X mg-1 protein X hr-1 under optimal conditions (5 mM MgATP, 75 mM Na+, 75 mM HEPES, pH 6.0) and exhibits a lower pH optimum than the (Na+ + K+)-ATPase. The Na+ stimulation of ATPase is only 17% inhibited by 10-3M ouabain and completely abolished by 2.5 mM ethacrinic acid which on the contrary cause, respectively, 100% and 34% inhibition of the (Na+ + K+)-ATPase. Both Na+-and (Na+ + K+)-stimulated activities can hydrolyze nucleotides other than ATP in the efficiency order ATP greater than CTP greater than UTP greater than GTP and ATP greater than CTP greater than GPT greater than UTP, respectively. In the presence of 10(-3)M ouabain millimolar concentrations of K+ ion lower the Na+ activation (90% inhibition at 40 mM K+). The Na+-ATPase is less sensitive than (Na+ + K+)-ATPase to the Ca2+ induced inhibition as the former is only 57.5% inhibited by a concentration of 1 X 10(-2)M which completely suppresses the latter. The thermosensitivity follows the order Mg2+--greater than (Na+ + K+)--greater than Na+-ATPase. A similar break of the Arrhenius plot of the three enzymes is found. Only some of these characteristics do coincide with those of a Na+-ATPase described elsewhere. A presumptive physiological role of Na+-ATPase activity in seawater adapted teleost gills is suggested.
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PMID:Ouabain-insensitive Na+ stimulation of a microsomal Mg2+ -ATPase in gills of sea bass (Dicentrarchus labrax L.). 285 46

The changes in the contents of the main tricarboxylic acid cycle intermediates and related amino acids under total ischemia and subsequent reperfusion of isolated guinea pig heart were studied. The decrease in ATP and phosphocreatine during 30 min ischemia was accompanied by alanine formation and approximately stoichiometric glutamate loss. The increase in malate in ischemic myocardium corresponded to the anaplerotic flux aspartate----oxaloacetate----malate. The succinate production was commensurable to alpha-ketoglutarate formation in the alanine aminotransferase reaction. The release of bulk amount of lactate, alanine and succinate into the myocardial effluent was observed during an early phase of the reperfusion using 1H NMR. In contrast to these metabolites, malate release was not observed in the reperfusion. By the 30th min of the reperfusion the decrease in lactate, alanine, malate and succinate tissue contents to the preischemic values was accompanied by the recovery of ATP and phosphocreatine. The results suggest that the formation and the release of succinate and alanine from the heart, complementary to that of lactate, reflect profound disturbances in energy metabolism.
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PMID:Metabolism of the tricarboxylic acid cycle intermediates and related amino acids in ischemic guinea pig heart. 289 8

The metabolism of [15N]glutamate was studied with gas chromatography-mass spectrometry in rat brain synaptosomes incubated with and without glucose. [15N]Glutamate was taken up rapidly by the preparation, reaching a steady-state level in less than 5 min. 15N was incorporated predominantly into aspartate and, to a much lesser extent, into gamma-aminobutyrate. The amount of [15N]ammonia formed was very small, and the enrichment of 15N in alanine and glutamine was below the level of detection. Omission of glucose substantially increased the rate and amount of [15N]aspartate generated. It is proposed that in synaptosomes (a) the predominant route of glutamate nitrogen disposal is through the aspartate aminotransferase reaction; (b) the aspartate aminotransferase pathway generates 2-oxoglutarate, which then serves as the metabolic fuel needed to produce ATP; (c) utilization of glutamate via transamination to aspartate is greatly accelerated when flux through the tricarboxylic acid cycle is diminished by the omission of glucose; (d) the metabolism of glutamate via glutamate dehydrogenase in intact synaptosomes is slow, most likely reflecting restriction of enzyme activity by some unknown factor(s), which suggests that the glutamate dehydrogenase reaction may not be near equilibrium in neurons; and (e) the activities of alanine aminotransferase and glutamine synthetase in synaptosomes are very low.
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PMID:Glucose and synaptosomal glutamate metabolism: studies with [15N]glutamate. 290 Aug 79

The protective effects of PGE1 on ischemia-related liver damage were evaluated in dogs. Ninety minutes warm hepatic ischemia was induced by the total clamping of hepatic inflow vasculatures with portal bypassing. The survival rate improved up to 62.5% when PGE1 was administered intravenously prior to ischemia, while no dog survived for longer than 1 week in the nontreated group. Hepatic ATP content was restored up to 80% of preischemic level 2 h after reflow in the PGE1 pretreated group, compared to 55% recovery in the nontreated group. Complete normalization of hepatic energy charge and rapid decrease of lactate were also seen in the PGE1 group. The clearance rate of intravascular lipid emulsion remained fairly normal in the PGE1 group, thereby suggesting well-preserved hepatic reticuloendothelial functions. The serum activities of beta-glucuronidase, GOT and GPT were suppressed in the PGE1-pretreated group, thereby implying a well-protected hepatic integrity. The histology revealed well-preserved hepatic architecture. The remarkable cytoprotective effect of PGE1 on hepatic ischemia shown in this study indicates that PGE1 warrants further study for protection of ischemically compromised hepatic allografts.
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PMID:Protective effect of prostaglandin E1 (PGE1) on energy metabolism and reticuloendothelial function in the ischemically damaged canine liver. 292 40

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