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)

Susceptibility to acetaminophen-induced hepatotoxicity was found to vary widely in an outbred colony of Swiss Webster mice. Some acetaminophen-treated male mice showed a significant elevation in serum levels of the hepatic enzyme alanine aminotransferase at a normally non-hepatotoxic oral dose. A selective breeding program over 17 generations produced inbred mice which were either susceptible or nonsusceptible to the hepatotoxic effects of acetaminophen. Liver microsomes from the susceptible group showed a statistically significant increase in the ability to metabolize acetaminophen to a reactive intermediate which covalently binds N-acetylcysteine. Microsomal cytochrome P450 activities associated with CYP1A2 (acetanilide 4-hydroxylation and methoxyresorufin O-demethylase) were significantly increased in the susceptible group. Ethoxyresorufin O-deethylase activity, associated with both CYP1A1 and CYP1A2, was also significantly elevated in this group. Further examination of both CYP1A isoforms revealed that hepatic CYP1A1 and CYP1A2 mRNA and protein levels were significantly elevated in animals from the susceptible group. In vivo caffeine 3-demethylation, which is associated with CYP1A2 activity, co-segregated with acetaminophen susceptibility and showed a significant positive correlation (r = 0.626, p < 0.005) with CYP1A2 mRNA expression in animals from both the susceptible and nonsusceptible groups. The co-segregation of elevated basal Cyp1a1 and CYP1a2 gene expression levels in animals selected for susceptibility to acetaminophen-induced hepatotoxicity suggested a common heritable basis for regulation of basal expression of both of these CYP1A isoforms. This was supported by the correlated expression of both CYP1A mRNAs within individual mice (r = 0.644, p < 0.02).
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PMID:Increased basal expression of hepatic Cyp1a1 and Cyp1a2 genes in inbred mice selected for susceptibility to acetaminophen-induced hepatotoxicity. 929 56

The present study reports on the effects of horminone on serum alanine aminotransferase (ALT) and aspartate aminotransferase (AST) levels, on hepatic cytochrome P450 (P450) and cytochrome b5 (cyt b5) contents and on the activities of NADPH-cytochrome P450 reductase (NR), mixed function mono-oxygenases (MFO), glutathione-S-transferase (GST) and glutathione reductase (GR) of Wistar male rat. Horminone is a diterpenoid quinone (7,12-dihydroxyabiet-8,12-diene-11,14-dione) present in several species of the Labiatae family and used as medicinal plants in folk medicine. In this study, horminone was administered by the intraperitoneal route (i.p.) at a concentration of 1 or 10 mg/kg to each group of six mice, using water as a vehicle. On the one hand, results showed that horminone increased serum ALT and AST levels and cyt b5 content and induced the activities of ethylmorphine N-demethylase (EMD). On the other hand, horminone decreased P450 content and inhibited the activities of 7-ethoxyresorufin O-deethylase (ERD), 7-ethoxycoumarin O-deethylase (ECD), aniline 4-hydroxylase (AH) and NR. Based on these results, the possibility of toxic effects occurring after administration of plant extracts containing horminone must be considered.
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PMID:Effects of horminone on liver mixed function mono-oxygenases and glutathione enzyme activities of Wistar rat. 932 1

Temporal variation in metabolism and hepatotoxicity of acetaminophen (APAP) was examined using male ICR mice. Animals were injected with a single dose of APAP (400 mg/kg, i.p.) at 08:00, 14:00 or 20:00 h. APAP at this dose was markedly hepatotoxic to mice when administered at 20:00 h as determined by increases in serum alanine aminotransferase (ALT) and aspartate aminotransferase (AST) activities, and by decreases in hepatic glucose-6-phosphatase (G-6-Pase) activity. However, mice appeared to be entirely insensitive to an identical dose of APAP given either at 08:00 or 14:00 h. Hepatic glutathione (GSH) level was significantly higher at 08:00, but no difference in GSH levels between 14:00 and 20:00 h was observed in normal mice. APAP and its metabolites in blood were monitored using HPLC for 3 h following the treatment. There were no significant differences in the plasma concentrations of APAP, APAP-glucuronide, APAP-sulfate, or APAP-mercapturate among the mice treated with this drug at 08:00, 14:00 or 20:00 h. However, the APAP-cysteine and APAP-GSH levels measured at 1 h following the APAP treatment were significantly lower in mice treated with this analgesic either at 14:00 or 20:00 h. In vitro hepatic microsomal p-nitrophenol hydroxylase activities were not different between 08:00, 14:00 and 20:00 h. But ethoxyresorufin O-deethylase and aminopyrine N-demethylase activities measured at 14:00 h were significantly lower than those of 08:00 or 20:00 h. Thus, the greater hepatotoxicity of APAP administered at 20:00 h appears to be related to the marked decrease in hepatic GSH at this time period, whereas the simultaneous reduction in APAP activation may be responsible for the lack of hepatotoxicity in mice treated with this analgesic at 14:00 h. These results suggest that the temporal variation in hepatotoxicity and metabolism of APAP is determined by interactions of multiple factors including the hepatic GSH level and drug metabolizing activities.
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PMID:Temporal variation in hepatotoxicity and metabolism of acetaminophen in mice. 970 5

Effects of a single dose of betaine on the chloroform-induced hepatotoxicity were examined in adult male ICR mice. Administration of betaine (1000 mg/kg, ip) 1 to 7 hr prior to a chloroform challenge (0.25 ml/kg, ip) resulted in remarkable enhancement of hepatotoxicity as indicated by increases in serum sorbitol dehydrogenase (SDH), alanine aminotransferase (ALT) and aspartate aminotransferase (AST) activities. The potentiation of hepatotoxicity was most significant when mice were treated with betaine 4 hr earlier than chloroform. However, a 24 hr prior administration of betaine protected the animals from induction of the chloroform hepatotoxicity. Thus, its effect appeared to be highly dependent on the time lapse from the betaine pretreatment to the challenge of mice with chloroform. Betaine treated either 4 or 24 hr prior to sacrifice did not alter the hepatic contents of cytochrome P-450, cytochrome b5, or NADPH cytochrome P-450 reductase activity. Accordingly the hepatic microsomal p-nitroanisole O-demethylase, aminopyrine N-demethylase, or p-nitrophenol hydroxylase activities were not influenced by the betaine pretreatment. Betaine was shown not to affect any of the enzyme activities associated with glutathione (GSH) conjugation reaction, such as glutathione S-transferases (GSTs), glutathione disulfide (GSSG) reductase and GSH peroxidase irrespective of the time of its administration. When betaine was administered to mice 2-6 hr prior to sacrifice, hepatic GSH level, but not plasma GSH, was decreased significantly. Enhancement of the chloroform hepatotoxicity by betaine correlated well with the reduction in hepatic GSH levels. Both hepatic and plasma GSH levels were elevated in mice 24 hr following the betaine treatment. The results suggest that betaine affects induction of the chloroform hepatotoxicity by modulating the availability of hepatic GSH, which appears to be associated with its role in the transsulfuration pathway in the liver.
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PMID:Effects of singly administered betaine on hepatotoxicity of chloroform in mice. 973 16

S-Allylmercaptocysteine (SAMC), one of the water-soluble organosulfur compounds in ethanol extracts of garlic (Allium sativum L.), has been shown to protect mice against acetaminophen (APAP)-induced liver injury. In this study, we examined the mechanisms underlying this hepatoprotection. SAMC (100 mg/kg, p.o.) given 2 and 24 hr before APAP administration (500 mg/kg, p.o.) suppressed the plasma alanine aminotransferase activity increases 3 to 12 hr after APAP administration significantly. The hepatic reduced glutathione levels of vehicle-pretreated mice decreased 1 to 6 hr after APAP administration, but SAMC pretreatment suppressed the reductions 1 to 6 hr after APAP administration significantly. These inhibitory effects of SAMC were dose-dependent (50-200 mg/kg) 6 hr after APAP administration. As SAMC pretreatment (50-200 mg/kg) suppressed hepatic cytochrome P450 2E1-dependent N-nitrosodimethylamine demethylase activity significantly in a dose-dependent manner, we suggest that one of its protective mechanisms is inhibition of cytochrome P450 2E1 activity. SAMC pretreatment also suppressed the increase in hepatic lipid peroxidation and the decrease in hepatic reduced coenzyme Q9 (CoQ9H2) levels 6 hr after APAP administration. The hepatic CoQ9H2 content of the SAMC pretreatment group was maintained at the normal level. Therefore, we suggest that another hepatoprotective mechanism of SAMC may be attributable to its antioxidant activity.
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PMID:Mechanisms of protection by S-allylmercaptocysteine against acetaminophen-induced liver injury in mice. 982 23

Mice were fed with high zinc diet (15 g/kg) for 3 weeks. High zinc could cause liver toxicity: 1. inhibiting the activity of GOT and GPT in liver homogenate, reducing GSH and glycogen contents. 2. increasing the activity of aniline hydroxylase and inhibiting the activities of NADPH-cytochrome C reducease, benzo-phytamine-N-demethylase and glutathione S-transferase. The activities of cytochrome P450 and cytochrome b5 were not obviously changed 3. increasing microsomal membrane fluidity in the superficial layers, but not in the deep layers.
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PMID:[Effects of high dietary zinc on liver function, hepatic drug metabolism enzymes and membrane fluidity in mice]. 1068 26

We determined the relationship between lipid peroxidation and alterations in hepatic secretory and microsomal function during various periods of hepatic ischemia/reperfusion. Rats were pretreated with alpha-tocopherol or vehicle and then subjected to 30, 60, and 90 min, no-flow hepatic ischemia in vivo with 1 or 5 h of reperfusion. Serum aminotransferase (ALT) level, wet-dry weight ratio, and lipid peroxidation were increased at 1 and 5 h of reperfusion, and these changes were significantly attenuated by alpha-tocopherol. Na+, K+-ATPase activity, and glucose-6-phosphatase activity were significantly decreased in 90-min ischemic rats, and these decreases were ameliorated by alpha-tocopherol. After 90 min of ischemia, bile flow, cholate output, and bilirubin output were markedly decreased by ischemia/reperfusion, and alpha-tocopherol restored the secretion. Cytochrome P450 content was decreased by ischemia/reperfusion and restored by alpha-tocopherol to the level of that found in the sham-operated group. Aminopyrine N-demethylase activity was decreased, and aniline p-hydroxylase was increased in 60-min ischemic rats. The changes in the activities of the two enzymes were prevented by alpha-tocopherol. Our findings suggest that ischemia/reperfusion diminishes hepatic secretory functions and microsomal drug metabolizing systems in proportion to the duration of ischemia and reperfusion in vivo, and this is associated with increased lipid peroxidation.
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PMID:Hepatic injury and lipid peroxidation during ischemia and reperfusion. 1077 16

The preventive effect of Thea sinensis melanin (TSM) against overdoses of N-acetyl-p-aminophenol (NAPAP) was studied on ICR mice. Animals were given 400 mg/kg intraperitoneally (i.p.) of NAPAP, and TSM was injected i.p. in doses 10-40 mg/kg 2 h before intoxication. The protective effects were evidenced by a complete blockage of the NAPAP-induced elevation of plasma alanine aminotransferase (ALT) activity, decreased concentration of thiobarbituric acid reactive substances (TBARS) to the control level, and a partial prevention of reduced glutathione (GSH) depletion in the liver tissue. Preadministration of TSM also caused restoration of superoxide dismutase (SOD) activity and resumed content of coenzymes Q9 and Q10. TSM by itself, however, did not affect the hepatic functional parameters, including serum ALT, TBARS, GSH, SOD, or coenzymes Q in the liver. Administration of TSM caused a dose-dependent inhibition of N-nitrosodimethylamine demethylase activity with ED50 of 15.8 mg/kg. Activities of ethoxyresorufin O-dealkylase and pentoxyresorufin O-alkylase isozymes were changed insignificantly. The immune suppressive effect of NAPAP on the in vivo antibody-forming cell responses was demonstrated using ICR-sensitized mice with sheep red blood cells. The joint effect of TSM and NAPAP indicated the capability of TSM to recover immunity of the animals to the level of intact mice. Results obtained demonstrate that TSM preadministration can prevent the multiple toxic effects of NAPAP.
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PMID:Preventive effect of Thea sinensis melanin against acetaminophen-induced hepatic injury in mice. 1529 9

Our goal was to elucidate roles of Nrf2 in in vivo defense against pentachlorophenol (PCP), an environmental pollutant and hepatocarcinogen in mice. We examined oxidative stress and cell proliferation, along with other hepatotoxicological parameters, in the livers of nrf2-deficient (wild:+/+, heterozygous:+/-, homozygous:-/-) animals fed PCP in their diet at doses of 0, 150, 300, 600, or 1200 ppm for 4 weeks. For measurement of methoxyresorufin-O-demethylase (CYP 1A2), NAD(P):quinone oxidoreductase 1 (NQO1), and UDP-glucuronosyltransferase (UDP-GT), an additional study was performed with all but the 150-ppm dose. Significant elevation of 8-hydroxydeoxyguanosine (8-OH-dG) levels in the liver DNA was observed only in -/- mice treated with PCP at 1200 ppm. Levels of thiobarbituric-acid-reactive substances (TBARS) were also raised significantly compared to those of the relevant +/+ mice. Bromodeoxyuridine labeling indices (BrdU-LIs) of hepatocytes in -/- mice were significantly higher at all doses than those in the relevant +/+ mice. Relative liver weights were unchanged in mice lacking Nrf2, whereas liver weight in +/+ and +/- mice was increased. Significant elevations of serum ALP activity, but not ALT and AST activity, occurred at 600 ppm and above in -/- mice compared to the relevant +/+ mice. Histopathologically, centrilobular hepatocyte necrosis was severe in the -/- mice that received 600 ppm. Although CYP 1A2 activity was elevated in all treated mice, increases in NQO1 levels and UDP-GT activities did not occur only in -/- mice. These data suggest that Nrf2 plays a key role in prevention of PCP-induced oxidative stress and cell proliferation.
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PMID:A crucial role of Nrf2 in in vivo defense against oxidative damage by an environmental pollutant, pentachlorophenol. 1635 18

The effects of dimethylsulfoxide (DMSO) on the metabolism and toxicity of chlorinated methanes were examined. Male mice were treated with DMSO (1, 2.5 or 5 ml kg(-1), i.p.) prior to challenge with dichloromethane (CH(2)Cl(2)) or carbon tetrachloride (CCl(4)). Blood carboxyhemoglobin elevation resulting from metabolic conversion of CH(2)Cl(2) to carbon monoxide was inhibited dose-dependently by DMSO pretreatment. The elevation of serum aspartate aminotransferase, alanine aminotransferase and sorbitol dehydrogenase activities induced by CCl(4) (0.1 mmol kg(-1)) was not changed in mice pretreated with DMSO at 1 ml kg(-1), but depressed significantly at a greater dose of DMSO. However, DMSO failed to alter the hepatotoxicity of CCl(4) injected at a dose of 0.2 mmol kg(-1). DMSO induced the microsomal p-nitrophenol hydroxylase and p-nitroanisole O-demethylase activities as early as 2 h following the treatment. Microsomal disposition of CH(2)Cl(2) and CCl(4) was measured using a vial equilibration technique. The disappearance of CH(2)Cl(2) was inhibited competitively by addition of DMSO. But DMSO did not affect the metabolic degradation of CCl(4). The results indicate that DMSO has multiple effects on metabolism and toxicity of xenobiotics. DMSO induces the hepatic metabolizing activity mediated by CYP2E1, but the presence of this solvent in the enzyme site may inhibit directly the enzymatic interaction with a substrate. The toxicological significance of DMSO-induced effects on such an interaction may be variable depending on the properties of each substrate. The invulnerability of CCl(4) metabolism to the effects of DMSO appears to be related to its high affinity for the lipophilic CYP enzyme site.
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PMID:Comparative effects of dimethylsulfoxide on metabolism and toxicity of carbon tetrachloride and dichloromethane. 1717 72

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