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. Hepatotoxicity is the most common finding in patients with iron overload since the liver is the major recipient of iron excess, even though the kidney could be a target of iron toxicity. The effect of iron overload was studied in the early stages after iron-dextran injection in rats, as a model for secondary hemocromatosis. 2. Total hepatic and kidney iron content was markedly elevated over control values 20 h after the iron administration. Plasma GOT, GPT and LDH activities were not affected, suggesting that liver cell permeability was not affected by necrosis. 3. Spontaneous liver chemiluminescence was measured as an indicator of oxidative stress and lipid peroxidation. Light emission was increased four-fold 6 h after iron supplementation. 4. Increases in the generation of thiobarbituric acid reactive substances (TBARS in liver and kidney homogenates were detected after iron administration. 5. The activities of catalase, SOD and glutathione peroxidase were determined. Enzymatic activities declined in liver homogenates by 25, 36 and 32%, respectively, 20 h after iron injection. These activities were not affected in kidney as compared to control values, except for SOD activity that was decreased by 26%. 6. The content of alpha-tocopherol was decreased by 31% in whole kidney homogenates and by 40% in plasma. 7. Our data indicate that lipid peroxidation occurs after mild iron overload both in liver and kidney. Enzymatic antioxidants are consumed significantly in liver and alpha-tocopherol content decreases in kidney, suggesting an organ-specific antioxidant effect.
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PMID:Effect of mild iron overload on liver and kidney lipid peroxidation. 764 Jun 23

Sixty gnotobiotic rats with 5 strains of bacteria in intestine were randomized to 4 groups: (1) Sham injury group (controls, n = 6). (2) Early fluid resuscitation (EFR) group (n = 24), receiving fluid resuscitation (Parkland formula) immediately after scald (40% TBSA, third degree). (3) Delayed fluid resuscitation (DFR) group (n = 24) receiving resuscitation 6 hours later after scald. (4) Treatment group (n = 12) receiving DFR and the therapy of VitC and VitE. At 8, 24, 48 and 72 hours after injury, the animals (n = 6, at each point) were sacrificed and the content of oxygen free radicals (OFR), SOD,GSHPx and MDA in the heart, liver, kidney and lung were determined. Morphological Changes of organs, PaO2, PaCO2 and the content of serum CPK, LDH, GPT, GOT, BUN and Cr were also examined. Both EFR and DFR groups demonstrated elevated content of OFR and MDA and reduced content of SOD and GSHPx in their organs. Morphological and serological changes were also observed. All these changes were more obvious in DFR group than in EFR group. After the treatment of VitC and VitE, the changes were ameliorated. Our results suggested that DFR induced the production of OFR, resulting in lipid peroxidation and that OFR injury might be one of the main factors in the pathogenesis of multiple organ injury after DFR.
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PMID:[Multiple organ injury after delayed fluid resuscitation in severely scalded rats: role of oxygen free radicals]. 764 95

A normocalcemic animal model of vitamin D (vit. D)-deficiency has been successfully developed by feeding a high calcium (Ca2+) diet to vit. D.-deficient rats. The modulating role of Ca2+ on the hepatic antioxidant defence system and lipid peroxidation has been evaluated in this model. Partial restoration of liver function was noted in these rats following extra Ca2+ feeding. Serum alkaline phosphatase and alanine aminotransferase reverted to a normal level. The reduced levels of hepatic SOD and glutathione peroxidase in vit. D.-deficient rats, were also increased after extra Ca2+ supplementation. Even elevated lipid peroxidation due to vit. D.-deficiency was reduced after feeding the extra Ca(2+)-supplemented diet. However, catalase activity remained at the control level throughout the study. The results provide important evidence that normocalcemia is essential for maintaining the hepatic antioxidant defence and controlling lipid peroxidation in the in vivo milieu.
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PMID:The role of calcium in the modulation of the hepatic anti-oxidant defence system. 821 47

Ethanol administration to rats for 30 days and 90 days followed by paracetamol administration resulted in liver injury indicated by the significant increase in the serum GOT and GPT levels. The ethanol treatment to rats and the administration of paracetamol to the normal and alcoholic rats also caused a significant increase in the activity of serum acid and alkaline phosphatase. The hepatotoxicity of ethanol and paracetamol were indicated by the histological alterations in this study. The content of lipid peroxidation products-malondialdehyde, hydroperoxides and conjugated dienes were increased in the liver, heart, kidney and brain of the acute and chronic ethanol treated and paracetamol treated rats. The activities of the antiperoxidative enzymes-SOD and catalase decreased in the ethanol and paracetamol treated rats. The changes in the activities of the antiperoxidative enzymes in alcoholism and drug toxicity suggests increased peroxidation, increased synthesis of ecosonoids and increased damage to the tissues. The glutathione levels were decreased in the rats administered ethanol for 30 days, while the glutathione levels increased in the 90 days ethanol treated rats. The paracetamol treatment caused a decrease in the glutathione levels in the normals and the ethanol treated rats.
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PMID:Role of lipid peroxides, glutathione and antiperoxidative enzymes in alcohol and drug toxicity. 835 54

The hepatotoxicity of 1,2-dichlorobenzene (1,2-DCB) was studied in Fischer-344 (F344) rats administered methyl palmitate (MP) to inhibit Kupffer cell function or superoxide dismutase (conjugated to polyethylene glycol, i.e., PEG-SOD) to scavenge superoxide anions. In rats not pretreated with phenobarbital (PB), administration of either MP or PEG-SOD dramatically reduced the severity of 1,2-DCB-induced liver injury. Both agents reduced the elevations in plasma ALT activities by 80%. PEG-SOD conferred protection when administered 2 hr before or 2 hr after 1,2-DCB. Light microscopic examination of H & E-stained liver sections confirmed that the reductions in plasma ALT activities reflected protection from hepatocellular injury. Interestingly, MP did not protect against 1,2-DCB-induced hepatotoxicity in PB-pretreated rats. The degree of inhibition of 1,2-DCB hepatotoxicity by PEG-SOD in PB-pretreated animals was also less than that in normal rats and was not significantly different. The lack of a significant inhibition of the PB-potentiated hepatotoxicity by both PEG-SOD and MP suggests that reactive oxygen species released from a nonparenchymal source were not as crucial to the 1,2-DCB hepatotoxicity in the PB-pretreated rats as in the normal rats. Our results using both MP and PEG-SOD support the hypothesis that reactive oxygen species released from Kupffer cells play a major role in the progression of 1,2-DCB hepatotoxicity in the F344 rat.
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PMID:Modulation of 1,2-dichlorobenzene hepatotoxicity in the Fischer-344 rat by a scavenger of superoxide anions and an inhibitor of Kupffer cells. 838 65

Pretreatment of rats with large doses of vitamin A (VA) potentiates the hepatotoxicity of CCl4. Because our previous studies indicate that VA treatment does not enhance CCl4 metabolism but does enhance CCl4-induced lipid peroxidation and activates liver Kupffer cells to release increased amounts of oxygen-centered free radicals, the current studies were designed to determine if VA treatment potentiates CCl4-induced liver injury through increased release of reactive oxygen species. Plasma clearance of colloidal carbon, an index of Kupffer cell phagocytic activity, was enhanced two- to threefold in rats treated for 7 days with VA (retinol, 250,000 IU/kg per day). Accordingly, VA treatment alone caused Kupffer cell activation. To determine if these activated Kupffer cells could potentiate hepatic injury through release of reactive oxygen species upon CCl4 challenge, polyethylene glycol coupled-superoxide dismutase (PEG-SOD, 10,000 IU/kg) or -catalase (PEG-CAT, 40,000 IU/kg) was given iv 2 hr after CCl4 (0.15 ml/kg, ip) to control or VA-pretreated rats to quench any released reactive oxygen. PEG-SOD and PEG-CAT effectively blocked VA potentiation of CCl4 liver injury as assessed at 24 hr by change in plasma ALT. Methylpalmitate (MP, 2 g/kg), an inhibitor of Kupffer cell phagocytosis and related oxygen burst, also blocked the potentiation of liver injury when given iv 24 hr before CCl4 to VA-pretreated rats. At the doses used, PEG-SOD or PEG-CAT did not influence CCl4 toxicity in control rats (at 0.15 or 2 ml CCl4/kg). Importantly, SOD, CAT, and MP blocked the enhanced lipid peroxidation induced by CCl4 in VA-pretreated rats. From these findings we conclude that the potentiation of CCl4 liver injury by VA pretreatment is mediated, at least in part, by active oxygen species released from Kupffer cells and possibly other macrophages that are activated by VA. Supporting this conclusion is the failure of VA pretreatment to increase the release of LDH from suspension of hepatocytes incubated with CCl4.
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PMID:Vitamin A potentiation of carbon tetrachloride hepatotoxicity: role of liver macrophages and active oxygen species. 848 Mar 39

Native human cytosolic alanine aminotransferase (EC 2.6.1.2) was found to be a homodimer consisting of two 55 kDa subunits. The human enzyme was more cationic and more susceptible to heat inactivation and heavy metal-inhibition than its rat homologue. Isoelectric focussing separated three human isoforms and four rat isoforms of cALT that differed in their isoelectric points. Two subtypes of the enzyme which differed in apparent molecular weight on sodium dodecylsulfate polyacrylamide gel electrophoresis were detected in rat, the liver type and the muscular type. This microheterogeneity was not found for human cytosolic alanine aminotransferase. Immunohistochemical studies revealed that the rat liver enzyme was exclusively localized in periportal hepatocytes, consistent with its role in gluconeogenesis. In human hepatocytes the plasma membrane was intensely stained, implicating an intracellular localization near the plasma membrane.
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PMID:Microheterogeneity and intrahepatic localization of human and rat liver cytosolic alanine aminotransferase. 921 21

Total superoxide dismutase (SOD, EC 1.15.1.1) and catalase (CAT, EC 1.11.1.6) activities in erythrocytes and the glutamic acid-oxalacetic acid-transaminase (GOT, EC 2.6.1.1) and glutamic acid-pyruvic acid-transaminase (GPT, EC 2.6.1.2) activities in the plasma were measured in experimental groups of carps (Cyprinus carpio L.) exposed to cadmium in a concentration of 20 mg Cd/l water under aquarium conditions for 6, 12, 18 and 24 hours and in control fishes. It was shown that the total activity of SOD in the erythrocytes is significantly decreased after 12, 18 and 24 hours of cadmium exposure. Increased activities of CAT (after 24 hours) in the erythrocytes and GOT and GPT in the plasma were found in cadmium-treated fishes. At the same time the concentration of blood haemoglobin and haematocrit values were significantly diminished. These results indicate that cadmium causes oxidative stress and tissue damage in the exposed fishes.
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PMID:Activities of superoxide dismutase and catalase in erythrocytes and transaminases in the plasma of carps (Cyprinus carpio L.) exposed to cadmium. 972 86

The effect of prolonged treatment with the standardized Panax ginseng extract G115 on the antioxidant capacity of the liver was investigated. For this purpose, rats that had received G115 orally at different doses for 3 months and untreated control rats were subjected to exhaustive exercise on a treadmill. A bell-shaped dose response on running time was obtained. The results showed that the administration of G115 significantly increases the hepatic glutathione peroxidase activity (GPX) and the reduced glutathione (GSH) levels in the liver, with a dose-dependent reduction of the thiobarbituric acid reactant substances (TBARS). After the exercise, there is reduced hepatic lipid peroxidation, as evidenced by the TBARS levels in both the controls and the treated animals. The GPX (glutathione peroxidase) and SOD (superoxide dismutase) activity are also significantly increased in the groups receiving G115, compared with the controls. The hepatic transaminase levels, ALT (Alanine-amino-transferase) and AST (Aspartate-amino-transferase), in the recuperation phase 48 h after the exercise, indicate a clear hepatoprotective effect related to the administration of the standardized Panax ginseng extract G115. At hepatic level, G115 increases the antioxidant capacity, with a marked reduction of the effects of the oxidative stress induced by the exhaustive exercise.
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PMID:Effects of administration of the standardized Panax ginseng extract G115 on hepatic antioxidant function after exhaustive exercise. 1044 26

The effects of ozone treatment on the injury associated to hepatic ischemia-reperfusion (I/R) was evaluated. Ozone treatment (1 mg/kg daily during 10 days by rectal insufflation) is shown to be protective as it attenuated the increases in transaminases (AST, ALT) and lactate levels observed after I/R. I/R leads to a decrease in endogenous antioxidant (SOD and glutathione) and an increase in reactive oxygen species (H2O2) with respect to the control group. However, ozone treatment results in a preservation (glutathione) or increase (SOD) in antioxidant defense and maintains H2O2 at levels comparable to those in the control group. The present study reports a protective effect of ozone treatment on the injury associated to hepatic I/R. The effectiveness of ozone could be related to its action on endogenous antioxidants and prooxidants balance in favour of antioxidants, thus attenuating oxidative stress.
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PMID:Protective effect of ozone treatment on the injury associated with hepatic ischemia-reperfusion: antioxidant-prooxidant balance. 1049 75

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