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 effect of hypoxia on carbon tetrachloride-induced hepatotoxicity was studied. Male rats were exposed to carbon tetrachloride for 2 hr in the presence of differing oxygen concentrations. Serum glutamate-pyruvate transaminase (SGPT) activities were measured 24 hr after the end of the exposure. Exposure of rats to 5000 ppm carbon tetrachloride in the presence of 100, 21, 12, or 6% oxygen resulted in SGPT activities of 489, 420, 3768, and 1788 I.U./l respectively. Exposure of rats to air and 0, 1250, 2500, 5000, or 7500 ppm carbon tetrachloride gave SGPT activities of 35, 32, 69, 420, and 2188 I.U./l respectively; when 12% oxygen was used, the corresponding SGPT activities were 32, 665, 691, 3768, and 4200 I.U./l respectively. Exposure of rats to hypoxia produced histopathologically detectable condensation of hepatic cytoplasmic material, and exposure to 5000 ppm carbon tetrachloride in the presence of air produced mild centrilobular necrosis, which was much more severe when rats were exposed to 5000 pm carbon tetrachloride in the presence of 12% oxygen. Hepatic microsomal conjugated diene concentrations were increased by hypoxia and by exposure to carbon tetrachloride, but no synergistic interaction was observed. Hepatic microsomal cytochrome P-450 concentrations were decreased after exposure to carbon tetrachloride, but were the same after exposure to carbon tetrachloride and 12 or 21% oxygen. Hepatic carbon tetrachloride concentrations were the same in rats exposed to carbon tetrachloride in the presence of 12 or 21% oxygen; hepatic chloroform concentrations were higher in rats exposed to carbon tetrachloride in the presence of air than in the presence of 12% oxygen. The covalent binding of [14C]carbon tetrachloride metabolites to hepatic microsomal lipids and proteins was increased markedly by hypoxia as compared with normoxia. The covalent binding of metabolites of carbon tetrachloride to cellular macromolecules may play a role in the potentiation of carbon tetrachloride toxicity by hypoxia.
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PMID:Effect of hypoxia on carbon tetrachloride hepatotoxicity. 715 61

The reported investigations were carried out in 18 men aged 19 to 23 years in whom 400 ml of whole blood was removed. On the day before bloodletting, one hour and 24 hours after it the studied men carried out a 10 minute exercise on a Monark cycle ergometer at a workload raising the heart rate to 170/min. Before the exercise, immediately after it and in the 30th minute of restitution venous blood samples were taken for determinations of the concentrations of total protein, albumins, free fatty acids, glucose, lactate and pyruvate, and the activity of lactic dehydrogenase, alanine aminotransferase and aspartate aminotransferase. During that time the acid-base equilibrium was determined in capillary blood. After bloodletting the concentrations of albumins, total protein and free fatty acids were decreased parallelly to haematocrit value decrease (p less than 0.05) and glucose concentration increased slightly (p less than 0.05). Enzyme activity was decreased slightly (p greater than 0.05). The partial oxygen pressure decreased, that of carbon dioxide increased, and hydrogen ion concentration rose. These changes were more pronounced after 24 hours than 1 hour after bloodletting. After submaximal exercise and in the 30th minute of restitution as well as 1 and 24 hours after bloodletting the changes in the concentrations of the biochemical parameters, enzyme activity and acid-base equilibrium were similar as after bloodletting.
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PMID:Changes in the concentrations of certain biochemical parameters in the peripheral blood during exercise and restitution after bloodletting. 718 May 21

The relationship between the reductive metabolism of halothane and hepatotoxicity was examined in three rat strains (Fischer 344, Sprague-Dawley, and black hooded Wistar) to determine if there were genetic differences in 1) the reductive metabolism of halothane under identical exposure conditions, and 2) the susceptibility to the hepatotoxic effects of halothane. Halothane hepatotoxic was produced in all rat strains by exposing phenobarbital-pretreated rats to 1 per cent halothane under mild hypoxia (14 per cent oxygen, inspired) for 2 h. Generally the levels of both 2-chloro-1,1,1-trifluoroethane (CTF) and 2-chloro-1,1-difluoroethylene (CDF), two volatile metabolites of halothane, increased from the onset of anesthetic exposure and reached a plateau after approximately 60 min. The exception to this trend were phenobarbital-pretreated Wistar rats (exposed to 1 per cent halothane with 14 per cent oxygen) where the levels of either CDF or CTF were high initially (10-min sample) and decreased in subsequent samples to reach a plateau after 80 min. The plateau levels of both CDF (approximately 6 ppm) and CTF (approximately 20 ppm) were not significantly different among the three rat strains exposed to halothane (1 per cent) and hypoxia with prior enzyme induction. There were, however, significant differences in both biochemical and pathological changes among the three strains exposed under the above identical conditions when the rats were killed 24 h after anesthetic exposure. For example, serum alanine aminotransferase (ALT) was increased fourfold in the Fischer strain but only doubled for the other two strains. Moreover, while all three strains had various amounts of hepatocyte damage in the vicinity of the central veins when the rats were exposed to halothane, hypoxia, and enzyme induction, only the Fischer strain showed hepatocyte damage under the exposure conditions of halothane (1 per cent) and normoxia (21 per cent oxygen, inspired) with prior enzyme induction. The results support the role of reductive metabolism of halothane in the etiology of halothane hepatotoxicity. Furthermore, they suggest that genetic variations in the susceptibility of the liver to the reactive intermediates or metabolites formed during reductive metabolism of halothane may be a significant factor in halothane hepatotoxicity.
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PMID:Genetic differences in reductive metabolism and hepatotoxicity of halothane in three rat strains. 725 21

The time-course of the formation of 2-chloro-1,1,1-trifluoroethane (CTF) and 2-chloro-1-1-difluoroethylene (CDF), two recently identified volatile reductive metabolites of halothane, has been studied in four patients receiving 1% halothane with 99% oxygen. The concentrations of CTF and CDF in end-expired breath increased with time and reached a plateau after approximately 60 min from commencing administration. A similar time-course and plateau was seen when Fischer 344 rats were anaesthetized with halothane 1% in oxygen. However, there was an eight-fold and 12-fold increase in CTF and CDF concentrations respectively when halothane 1% was administered under conditions of mild hypoxia (oxygen 14% inspired) to rats pretreated with phenobarbitone (this results in a marked increase in serum alanine aminotransferase (ALT) and necrotic damage in the vicinity of the central veins of the liver). It is suggested that breath concentrations of CDF and CTF provide a sensitive method of monitoring the reductive metabolism of halothane.
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PMID:Time-course of formation of volatile reductive metabolites of halothane in humans and an animal model. 737 Jan 49

To investigate the effect of deuterium substitution on the biotransformation and hepatotoxicity of halothane, male, phenobarbital-pretreated rats were exposed for 2 hr to 1% halothane or deuterated halothane (d-halothane) delivered in 14% O2-85% N2. The exposures were performed at mildly hypoxic conditions (14% O2) since it was previously established that the decreased oxygen tension promotes both the reductive metabolism of halothane and halothane-induced liver injury. At the end of anesthesia or at 24 hr, the rats were sarificed so that blood, liver and urine samples could be obtained for measurement of metabolites and assessment of liver damage. Deuterium substitution did not affect the levels of reductive metabolites of halothane (fluoride, CF3CH2Cl and CF2CHCl) nor did it alter the degree of hepatotoxicity as assessed by serum glutamic-pyruvic transaminase levels and morphological examination. The levels of oxidative metabolites (CF3COOH and bromide) were significantly reduced at the end of anesthesia and at 24 hr. It is concluded that halothane-induced hepatotoxicity is initiated by reactive intermediates formed during its reductive metabolism and that cleavage of the C-H bond is not involved in this pathway. The oxidative biotransformation of halothane proceeds by an oxygen insertion reaction at the C-H bond. Thus, the increased stability of the C-D bond explains the reduction in oxidative metabolities observed after exposure to d-halothane.
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PMID:Comparison of the biotransformation and hepatotoxicity of halothane and deuterated halothane. 740 Sep 74

Although the incidence of Gram-positive sepsis has risen strongly, it is unclear how Gram-positive organisms (without endotoxin) initiate septic shock. We investigated whether two cell wall components from Staphylococcus aureus, peptidoglycan (PepG) and lipoteichoic acid (LTA), can induce the inflammatory response and multiple organ dysfunction syndrome (MODS) associated with septic shock caused by Gram-positive organisms. In cultured macrophages, LTA (10 micrograms/ml), but not PepG (100 micrograms/ml), induces the release of nitric oxide measured as nitrite. PepG, however, caused a 4-fold increase in the production of nitrite elicited by LTA. Furthermore, PepG antibodies inhibited the release of nitrite elicited by killed S. aureus. Administration of both PepG (10 mg/kg; i.v.) and LTA (3 mg/kg; i.v.) in anesthetized rats resulted in the release of tumor necrosis factor alpha and interferon gamma and MODS, as indicated by a decrease in arterial oxygen pressure (lung) and an increase in plasma concentrations of bilirubin and alanine aminotransferase (liver), creatinine and urea (kidney), lipase (pancreas), and creatine kinase (heart or skeletal muscle). There was also the expression of inducible nitric oxide synthase in these organs, circulatory failure, and 50% mortality. These effects were not observed after administration of PepG or LTA alone. Even a high dose of LTA (10 mg/kg) causes only circulatory failure but no MODS. Thus, our results demonstrate that the two bacterial wall components, PepG and LTA, work together to cause systemic inflammation and multiple systems failure associated with Gram-positive organisms.
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PMID:The cell wall components peptidoglycan and lipoteichoic acid from Staphylococcus aureus act in synergy to cause shock and multiple organ failure. 747 84

The aim of this study was to evaluate oxygen-dependent hepatic reperfusion injury in humans following orthotopic liver transplantation. To this end, a number of blood indices of impaired tissue redox balance were monitored in 19 adult patients for 3 weeks after liver transplantation. Both red cell malonaldehyde and plasma lipid peroxides increased significantly soon after organ reperfusion. This finding was consistently accompanied by decreased plasma vitamin E and red cell total glutathione. A peak of oxidative stress, as measured by the parameters monitored, was evident within 24 h after reperfusion, together with a maximum expression of cytolysis, as measured by plasma alanine aminotransferase. The occurrence of redox imbalance after hepatic reperfusion was shown to be linearly related to irreversible cell damage. As regards the low plasma levels of the two antioxidants after reperfusion, only that of vitamin E appeared statistically related to oxidative stress. With the background of an increasing body of proof, mainly from animal models, the involvement of toxic oxygen metabolites in hepatic cytolysis following orthotopic liver transplantation appears likely. The statistical correlation among the markers of redox imbalance monitored indicates their combined use in further investigation.
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PMID:Oxidative damage in human liver transplantation. 755 45

We attempted to make a basic model to investigate a series of factors that induce histological changes in systemic hypoxia-reoxygenation injuries. At first, we set the experimental conditions for hypoxia and the hypoxia-reoxygenation models as follows: respiration volume: 1.5 ml/stroke, respiratory frequency: 80 times/min, oxygen concentration: 14%. Next, Male SPF Wistar rats were anesthetized with pentobarbital sodium. For artificial ventilation, a cannula was inserted in the trachea and connected to the rodent ventilator through two flow meters to allow mixing of 100%N2 and 95%O2-5%CO2 gases at a desired ratio. The influence of hypoxia-reoxygenation was studied and evaluated histologically and biochemically. The rats were placed under the hypoxic condition for either 3 or 6 hr. Then, oxygen partial pressure was restored to 21% followed by reoxygenation for either 3 or 6 hr. Then the rats were sacrificed, and the pituitary, adrenals, heart, stomach and kidneys were removed. The results were as follows: 1) GPT activities were increased by a load of hypoxia, but no influence of reoxygenation was detected. 2) Under the condition of experimental hypoxia, the weights of the pituitary and adrenals increased significantly. 3) The histological findings indicated that 6-hr hypoxia followed by 3-hr reoxygenation induced hypoxia-reoxygenation injuries mostly affecting the anterior pituitary and adrenal medulla.
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PMID:[Experimental studies of physiological and pathological effects induced by systemic hypoxia and the hypoxia-reoxygenation model in rats]. 755 41

Crocetin is a major component in the fruit of Gardenia jaminoides Ellis, a Chinese herbal medicine. Its protective action and mechanism against oxidative damage were investigated and mechanism against oxidative damage were investigated. Reactive oxygen species (ROS) were generated enzymatically in the xanthine-xanthine oxidase (X/XO 5 microM/0.01 u/ml) system and non-enzymatically in the paraquat (PQ 5 mM) system. Both systems increased leakage of lactate dehydrogenase (LDH) and alanine transaminase (ALT) in rat primary hepatocytes, but the hepatotoxicity was significantly suppressed on pretreatment with crocetin (10, 20 microM). Crocetin decreased formation of malondialdehyde (MDA) as an index of lipid peroxidation induced by ROS. The oxyradical generation by X/XO or PQ caused DNA damage evaluated with unscheduled DNA synthesis (UDS) in rat primary hepatocytes. The addition of crocetin decreased genotoxicity evaluated with UDS in both systems. The data showed that crocetin also inhibited the formation of superoxide anion in the X/XO system and bleached the free radical 1, 1-diphenyl-2- picrylhydrazyl (DPPH). The protective action of crocetin operated via quenching of the superoxide anion and/or free radical.
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PMID:Crocetin protects against oxidative damage in rat primary hepatocytes. 758 79

Amlodipine, a long acting calcium antagonist, was used to reduce the adverse effects of ischemic/reperfusion injury studied in isolated perfused rat livers. Amlodipine (10 mumol/L) was added to University of Wisconsin (UW) solution in which the liver was stored for 24 hr at 4 degrees C and incorporated in the saline flush used to displace the UW solution before 20 min of warm ischemia (at 37 degrees C) and reperfusion. Initial median blood flow at 15 min was significantly higher after amlodipine treatment (2.78 vs. 1.41 ml/min/g of liver without amlodipine treatment, P = 0.013) as was the area under the curve of blood flow for the entire 3-hr perfusion (472 vs. 316 ml/g of liver, P = 0.003). Amlodipine treatment induced corresponding increases in oxygen delivery (1302 vs. 896 mumol of O2/g of liver over 3 hr of perfusion, P = 0.003) and oxygen consumption (279 vs. 242 mumol of O2/g of liver over 3 hr, P = 0.06). Initial bile flow at 15 min was increased 4-fold by amlodipine treatment (17.27 vs. 4.59 mg/hr/g of liver for sequential cold and warm ischemia, P = 0.013), and the median area under the curve of bile flow for the entire perfusion increased to 92.2 vs. 53.9 mg/g of liver (P = 0.0006). Amlodipine treatment also reduced glucose release into the perfusate (116 vs. 149 mmol/L/g of liver min over 3 hr, P = 0.03) and prevented hepatocyte injury by reducing alanine aminotransferase release both initially (0.43 vs. 0.96 IU/L/g of liver, P = 0.055) and overall (343 vs. 797 IU/L/g of liver min, P = 0.048). When amlodipine was added only to the UW solution, blood flow increased by 66% initially (P = 0.02) and 32% overall (P = 0.013), but there was no corresponding improvement in hepatic function. Amlodipine may reduce hepatic ischemic/reperfusion injury by cytoprotective effects on parenchymal and non-parenchymal hepatocytes during both preservation and reperfusion leading to an improvement in liver microcirculation and an inhibition of the release of toxic mediators.
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PMID:Amlodipine improves hepatic hemodynamic and metabolic function in the isolated perfused rat liver after sequential cold and warm ischemia. 762 39

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