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 in vivo effects of ascorbic acid on the reoxygenated liver tissue were examined, with regard to the following effects: (i) the effects of scavenging radicals and/or reducing peroxidative reactions, and (ii) the effects of the chelation with low-molecular-weight iron and increasing its reactivity (radical production). Ascorbic acid is one of the water-soluble vitamins known to have various physiological effects involving both chelating and reducing properties at once. Lipid peroxidation of the reoxygenated liver tissue estimated by the production of TBARS (thiobarbituric acid-reactive substance) and LPO (lipid hydroperoxides) was suppressed effectively by the preischemic intraperitoneal administration of ascorbic acid. Ascorbic acid also showed this anti-oxidant effect in a dose-dependent manner. The analysis of the levels of ascorbic acid and glutathione of the liver tissue revealed that ascorbic acid works as an anti-oxidant probably by being oxydized finally to dehydroascorbic acid just after the reoxygenation. The latter was reduced to ascorbic acid again, coupled with the conversion of GSH to GSSG in the postischemic time course. The predominant effect of ascorbic acid on the reoxygenated liver tissue seems to be caused by the scavenging radicals and/or reducing peroxidative reactions, rather than by chelating iron and increasing its reactivity (radical production). Cellular integrity (estimated by the release of GOT, GPT, and LDH) and the energy state of the postischemic liver tissue (estimated by the tissue ATP level) were also well preserved by the administration of ascorbic acid.
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PMID:The in vivo cytoprotection of ascorbic acid against ischemia/reoxygenation injury of rat liver. 773 75

p-Dichlorobenzene (p-DCB) is widely used as a moth repellent and a space deodorant. In mice pretreated with DL-buthionine sulfoximine (BSO; 2 mmol/kg or higher doses, i.p.), an inhibitor of glutathione (GSH) synthesis, administration of p-DCB (100-400 mg/kg, p.o.) resulted in dose-dependent hepatotoxicity as judged by increased serum alanine aminotransferase (ALT) activities and liver calcium concentrations and by histological examination of the liver, p-DCB alone (up to 1200 mg/kg) resulted in no hepatotoxicity. Administration of GSH monoethyl ester, which is known as a useful means for increasing organ GSH levels, protected against the hepatotoxicity caused by p-DCB in combination with BSO. Treatment with inhibitors of hepatic cytochrome P-450-dependent monooxygenases, carbon disulfide, metyrapone and piperonyl butoxide also prevented the hepatotoxicity. These results suggest that p-DCB is activated by a cytochrome P-450-dependent metabolic reaction and that the hepatotoxicity is caused by inadequate rates of detoxification of the resulting metabolite in mice depleted of hepatic GSH by BSO treatment. The liver injury was preceded by an extensive depletion of hepatic GSH but not accompanied by significant changes in hepatic contents of lipid peroxides and protein thiols.
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PMID:p-Dichlorobenzene-induced hepatotoxicity in mice depleted of glutathione by treatment with buthionine sulfoximine. 780 30

The potential beneficial effect of hepatocellular glutathione against inflammatory liver damage was investigated in a model of endotoxin-enhanced ischemia-reperfusion injury. Animals were subjected to 20 min of hepatic ischemia, followed by 4 hr of reperfusion. The injection of 0.5 mg/kg Salmonella enteritidis endotoxin potentiated liver injury and the postischemic oxidant stress, as indicated by increased plasma levels of glutathione disulfide. Depletion of hepatic glutathione levels by > 90% with phorone and inhibition of glutathione synthesis with buthionine sulfoximine further increased liver injury in this model, as indicated by enhancement of plasma alanine aminotransferase activities from 2,234 +/- 122 U/L to 4,024 +/- 282 U/L. Continuous infusion of a glutathione (GSH) solution in GSH-depleted animals (22 mumol/kg/hr) attenuated reperfusion injury by 55%. In vitro experiments demonstrated the capability of GSH to react rapidly with reactive oxygen species, such as hydrogen peroxide (H2O2) and hypochlorous acid (HOCl). Only H2O2 oxidized GSH quantitatively to its disulfide; HOCl oxidized GSH to higher oxidation states. These data support the hypothesis that the enhanced release of hepatocellular GSH functions as a defense mechanism against reactive oxygen species generated by inflammatory cells during endotoxemia and reperfusion. This internal defense system of the liver may be of general importance in preventing, or at least limiting, liver damage by reactive oxygen generated in particular by Kupffer cells during their physiological function to remove gut-derived endotoxin and bacteria.
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PMID:Beneficial effects of extracellular glutathione against endotoxin-induced liver injury during ischemia and reperfusion. 783 22

An investigation was made into the possible involvement of the enzyme xanthine oxidase (XO) (EC 1.1.3.22), both reversible (XOrev) and irreversible (XOirr), in damage observed after short-term in vivo hepatic ischaemia/reperfusion (60 or 120 min I and 15 min R) in fasted rats with: (i) a physiological content of XO (25%); and (ii) higher XO percentage (45%). In the latter the hepatic XO physiological percentage was increased by diethylmaleate treatment (300 mg kg-1) that depleted the cytosolic glutathione (GSH) to 14% of the controls. It was shown that, in animals with physiological content of XO, 60 and 120 min of hepatic ischaemia followed by 15 min reperfusion results in decreased GSH levels, and significantly increased alanine aminotransferase (ALT) and aspartate aminotransferase (AST) serum levels, without any modification of either the percentages of XO (XOirr and XOrev) or the hepatic thiobarbituric acid reactive substances (TBARS). Sixty minutes of ischaemia/reperfusion in rats with the higher XO level and lower hepatic GSH content led to further conversion of XDH to XOrev, with no increase in XOirr. In addition, the ALT and AST serum levels in these animals rose to the same extent as in normal rats after 120 min ischaemia and 15 min reperfusion, this extent being observed to be associated with a moderate increase in thiobarbituric acid reactive substances (TBARS). However, the administration of allopurinol, at a dose of 50 mg kg-1, which almost completely inhibits XO activity, did not lead to any decrease in liver damage or TBARS.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:No documentable role for xanthine oxidase in the pathogenesis of hepatic in vivo ischaemia/reperfusion injury. 786 19

In previous studies using isolated perfused rat livers, we have shown that reactive oxygen species are involved in hypoxic and ischaemic liver damage. Since albumin was shown to possess strong antioxidant properties we now investigated the capacity of albumin to prevent ischaemic and hypoxic damage in isolated perfused rat livers. Both, partial ischaemia and hypoxia/reoxygenation, resulted in marked hepatic injury as evidenced by an increased release of hepatic enzymes (GPT, LDH), by a strong decline of bile flow and by a decrease in hepatic GSH levels. With partial ischaemia, hepatic ATP depletion and calcium accumulation were also observed. Bovine serum albumin, added to the perfusate at concentrations of 0.1 or 1%, provided nearly complete protection against both types of liver injury. The same level of protection was also afforded by sulfhydryl-blocked and fatty acid-free bovine albumin preparations and by human albumin. In conclusion, the protective effect of albumin in our models of oxidative liver injury is neither due to the thiol moiety nor to the presence of oxidizable fatty acids in the albumin fraction. More likely, albumin provides protection by an unspecific binding of redox-active transition metal ions capable of catalyzing reactions which yield hydroxyl or hydroxyl-like radicals. Besides, unspecific sacrifice reactions of albumin with highly reactive oxygen species or other endogenous compounds may also be implicated.
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PMID:Protection by albumin against ischaemia- and hypoxia-induced hepatic injury. 787 Jun 99

Protective effect of Fengxiang Yigankang (FXYGK) capsule against hepatotoxicity induced by CCl4 and acetaminophen (AAP) was studied. It was found that the FXYGK capsule inhibited markedly malonic aldehyde (MDA) formation of liver induced by CCl4 and AAP. It blocked also depletion of reduced form of glutathione (GSH) of damaged liver induced by AAP. In addition, FXYGK could decrease serum alanine aminotransferase levels induced by CCl4 (P < 0.05). The results of histopathological examination showed that the FXYGK capsule (0.45, 0.9 and 1.8 g/kg) could also reduce significantly fatty degeneration of liver (P < 0.05).
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PMID:[Protection against experimental hepatic injury by fengxiang yigankang capsule]. 795 Jan 88

Chemical activation of Kupffer cells in vivo by vitamin A or latex beads is associated with a worsening of hepatic injury induced by the P450-dependent hepatotoxins acetaminophen (ACET) and carbon tetrachloride (CCl4) and by the P450-independent toxin galactosamine (GLN). Immunostimulants such as Corynebacterium parvum (CP) also activate Kupffer cells, but do so while prompting release of soluble mediators which depress microsomal oxidative activities in cultured hepatocytes. Therefore, we sought to characterize the effects of CP on hepatic injury in vivo due to ACET and CCl4 while employing GLN as a control. Hepatic microsomal oxidative activity and glutathione (GSH) disposition were examined since each influences susceptibility to injury from ACET or CCl4. Rats were given CP 28 mg/kg i.v. 5 days before challenge with hepatotoxicant. Hepatic injury was assessed 24 hr after hepatotoxicant administration by measurement of serum alanine aminotransferase (ALT) activity and review of histological sections. Livers from parallel groups of rats were used to prepare microsomal and cytosolic fractions, to measure tissue GSH, or for perfusion to assess GSH efflux. Significant reductions in injury due to ACET or CCl4 were observed while injury due to GLN was potentiated. Serum ALT levels after ACET were 3000 +/- 620 in controls vs 170 +/- 45 IU/liter in the CP-treated group and ALT levels after CCl4 were 3100 +/- 500 in controls vs 1700 + 450 IU/liter in the CP-treated group. In contrast, serum ALT levels after GLN were 920 +/- 230 in controls vs 1700 +/- 370 in the CP-treated group. Patterns of hepatic injury observed on histological sections were those characteristic for each toxin and the severity of injury correlated well with alterations in serum ALT levels for each agent. Hepatic microsomal fractions from rats pretreated with CP showed significantly diminished total cytochrome P450 content as well as reduced activity for two P450IIE1 substrates, p-nitrophenol and 7-ethoxycoumarin. While sinusoidal efflux of GSH increased by 40% in rats pretreated with CP and cytosolic glutathione-S-transferase activity fell slightly, tissue GSH levels were unaffected. These data demonstrate that CP decreases microsomal cytochrome P450 content, reduces biotransformation of two P450IIE1 substrates, and diminishes ACET- and CCl4-induced hepatic injury. In contrast, hepatic injury due to the P450-independent toxin GLN was enhanced. Thus, chemical and immune stimulation of Kupffer cells may result in divergent effects on susceptibility to injury from individual hepatotoxins.
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PMID:Kupffer cell stimulation with Corynebacterium parvum reduces some cytochrome P450-dependent activities and diminishes acetaminophen and carbon tetrachloride-induced liver injury in the rat. 797 94

The changes in the concentrations of reduced (GSH) and oxidized glutathione (GSSG) in the plasma as well as in the liver were investigated in rats with endotoxin hepatitis. Hepatitis was induced by intraperitoneal co-administration of small doses of Escherichia coli endotoxin and D-galactosamine. In the liver, the concentration of GSH decreased and that of GSSG increased 12 hr later. In the plasma taken from the right atrium, the concentration of both GSH and GSSG increased. The GSH/GSSG ratio in the plasma decreased, as it did in the liver. The net sinusoidal efflux of GSH and GSSG from the liver was calculated by subtracting their concentrations in plasma of the infrahepatic, suprarenal inferior vena cava from those of the suprahepatic inferior vena cava. The efflux started to increase as early as 2-4 hr after the injection of the toxins. In contrast, a leakage of alanine aminotransferase, an elongation of prothrombin time, an inhibition of starvation ketosis, and an increase in serum concentration of total bilirubin were detected as late as 6-8 hr after the injection. We conclude that endotoxin/D-galactosamine hepatitis induced an increase in plasma concentrations of GSH as well as GSSG by increasing the efflux of these peptides from the liver, and that changes in plasma glutathione status might be useful and sensitive markers for liver damage.
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PMID:Increased sinusoidal efflux of reduced and oxidized glutathione in rats with endotoxin/D-galactosamine hepatitis. 802 75

To elucidate the significance of the changes in plasma glutathione concentrations associated with carbon tetrachloride (CCl4)-induced liver damage, the changes in the concentrations of reduced (GSH) and oxidized glutathione (GSSG) in plasma as well as in the liver were investigated in rats. In the liver, the concentration of GSH decreased, and that of GSSG increased 24 hr after the intraperitoneal administration of CCl4. In the right atrial plasma, the concentration of both GSH and GSSG increased. The GSH/GSSG ratio in the plasma decreased as did that in the liver. The net sinusoidal efflux of GSH and GSSG from the liver was calculated by subtracting their concentrations in plasma of the infrahepatic inferior vena cava from those of the suprahepatic inferior vena cava. The net efflux of GSH and GSSG started to increase as early as 3-6 hr after CCl4 administration, and reached a plateau 6 and 24 hr after CCl4 administration, respectively. On the other hand, an elongation of prothrombin time and leakage of alanine aminotransferase reached a maximum 24 and 48 hr after CCl4 administration, respectively. Vacuolization in the centri-lobular region and inflammatory infiltration started 3 and 6 hr after CCl4 administration, respectively, and progressed for 48 hr. These results suggest that CCl4 induced an increase in plasma concentrations of GSH as well as GSSG by increasing their efflux from the liver, and that the changes in plasma glutathione status might be a useful and sensitive marker for CCl4-induced liver damage.
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PMID:Carbon tetrachloride increases sinusoidal efflux of reduced and oxidized glutathione in rats. 811 11

The hepatoprotective effects of misoprostol on acetaminophen (APAP)-induced toxicity were studied in the rat. Liver injury was evaluated at 36 hr after APAP administration by measuring serum ornithine carbamoyltransferase (OCT) and alanine aminotransferase (ALT) levels, by using tetranitroblue tetrazolium (TNBT) staining and by histological analysis. After APAP administration, peak serum levels of the drug were detected at 15 min. Liver GSH was depleted from control levels of 448 +/- 48 micrograms/g to 82 +/- 2 micrograms/g (P < 0.01) within 3 hr. Serum ALT levels increased significantly after 16 hr and H&E staining revealed significant hepatic necrosis after 12 hr. Rats treated with misoprostol before and after APAP administration showed reduced OCT and ALT levels at 36 hr of overdose (454 +/- 446 IU/liter and 2571 +/- 2944 IU/liter, respectively) compared to those without misoprostol treatment (1348 +/- 480 IU/liter and 6077 +/- 3025 IU/liter, respectively, P < 0.01). TNBT staining showed a reduced area of damage from 28.6 +/- 22.3% to 7.3 +/- 8.9% (P < 0.01), and H&E staining also showed less extensive hepatic necrosis in rats treated with misoprostol before and after the overdose. In a time sequence study, misoprostol treatment starting within 10 hr of overdose showed the same protective effect as when it was given before and after APAP ingestion. No protection was detected when the treatment was started during the development of hepatic injury. However, misoprostol given when injury was established seemed to be protective. Our results show that misoprostol protects the liver against APAP-induced injury if given within 10 hr of overdose.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Misoprostol protection against acetaminophen-induced hepatotoxicity in the rat. 820 Feb 57


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