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)

Therapy with tacrine, a promising new treatment for Alzheimer's disease, must be discontinued in up to 15% of patients because of hepatocellular toxicity. Recent studies using human liver microsomes have suggested that a single liver enzyme, cytochrome P450 1A2 (CYP1A2), catalyzes the major route of metabolism and elimination of tacrine, and also catalyzes the pathway(s) involved in the generation of reactive metabolites capable of covalent protein binding and cytotoxicity. Because CYP1A2 activity has been shown to vary up to 60-fold among patients, we proposed that a convenient measure of CYP1A2 activity, the [(13)C 3-methyl] caffeine breath test (CBT), might be clinically useful in identifying patients most susceptible to tacrine liver toxicity. To test this hypothesis, we administered the CBT to 37 patients with Alzheimer's disease before they began treatment with tacrine. Twenty patients received 2 mg/kg of [(13)C 3-methyl] caffeine. The remaining 17 patients received the commercially available CBT kit, which employs a constant 200-mg dose. The activities of two other major drug-metabolizing enzymes (cytochrome P450 3A4 and 2D6 [CYP3A4 and CYP2D6]) were also measured in these 17 patients. We found that the results obtained from the CBT protocol did not predict the peak serum alanine transaminase (ALT) observed in the patients. The measured CYP3A4 and CYP2D6 activities also failed to predict the susceptible patients. However, the result of the standardized-dose CBT correlated well with the logarithm of the steady-state plasma tacrine level obtained in 10 patients (R(2) = .69, P = .003). We conclude that the CBT will not be clinically useful in determining the subset of patients most susceptible to tacrine hepatotoxicity. However, the correlation we observed between CBT results and tacrine blood levels is the first evidence supporting a critical role for CYP1A2 activity in the disposition of the drug in vivo.
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PMID:The caffeine breath test does not identify patients susceptible to tacrine hepatotoxicity. 867 60

Evidence suggests that 7 days of retinol pretreatment potentiates chemical-induced liver injury by a mechanism that involves activation of Kupffer cells (KC). These studies were designed to determine if shorter dosing regimens of retinol potentiate carbon tetrachloride (CCl4). Initially, a single dose of retinol was shown to potentiate the hepatotoxicity of CCl4. Male Sprague-Dawley rats were pretreated with all-trans-retinol (75 mg/kg p.o.) 24 hr prior to KC isolation or administration of CCl4 (0.2 ml/kg i.p.). KC isolated at 24 hr after retinol released increased amounts of superoxide anion when stimulated with zymosan or phorbol myristate acetate. At 24 hr after CCl4, plasma ALT activities and histological sections of liver were examined. Retinol-pretreated rats showed a significant elevation in both enzyme leakage and centrilobular to midzonal necrosis compared to retinol vehicle controls following CCl4. Although complete protection was not seen, depletion of KC or neutrophils (PMNs) (by gadolinium chloride (GdCl3) or a PMN-depleting antibody, respectively) significantly reduced the hepatotoxicity of 1 day retinol/CCl4 liver injury. Immunohistochemical analysis of livers showed significant elevations in positive staining for ED2, ED1, and HIS48 in retinol-pretreated rats given CCl4. GdCl3 effectively reduced ED2 staining but did not greatly affect HIS48 staining. Additional studies were performed to estimate the effect of retinol on noninflammatory processes. While total cytochrome P450 was not increased, the activity and concentration of CYP2E1 were both significantly elevated after a single dose of retinol. Hepatocytes isolated from 1-day retinol-treated rats were also more susceptible to CCl4 injury, a consequence that is most likely related to elevated CYP2E1 activity. These findings suggest that a single pretreatment with retinol may potentiate CCl4 hepatotoxicity by multiple mechanisms which involve increased biotransformation and inflammatory cell activities.
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PMID:The role of inflammatory cells and cytochrome P450 in the potentiation of CCl4-induced liver injury by a single dose of retinol. 897 75

We describe a 76-year-old male patient who developed a life-threatening acute hepatotoxicity possibly caused by flutamide, an antiandrogen drug given during the previous 10 months, in the scenario of a brief moderate hypotension secondary to atrial flutter. There was a sudden increase of liver enzyme levels AST = 4.521 IU/L, ALT = 1.716 IU/L (normal values 0-37 and 0-40 respectively), prothrombin activity decreased to 16%, and also felt the platelet count, with significant haemorrhages. We hypothesize this was triggered as a consequence of the transient diminished supply of oxygen to the subclinically flutamide-damaged hepatocytes by the well-known mechanism of the cytochrome P450 (3A and 1A)-mediated formation of electrophilic metabolites, and the inhibitory effect of flutamide on mitochondrial respiration and ATP formation.
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PMID:[Hepatoxicity caused by flutamide increased by hypotensive situation?]. 901 17

1. The roles of cytochrome P450 monooxygenases (P450) and glutathione (GSH) in styrene hepatotoxicity were investigated in mice by pretreating with either phenobarbital (PB; P450 inducer), SKF 525A (P450 inhibitor), N-acetylcysteine (NAC; GSH precursor), or saline (vehicle control) prior to a 6-h exposure to either 500 ppm styrene on air. 2. Styrene caused hepatocellular degeneration or necrosis in all groups; these changes were more extensive and severe in mice pretreated with PB. Styrene significantly increased relative liver weights and serum ALT and SDH levels only in mice pretreated with PB. NAC did not prevent GSH depletion or hepatotoxicity. 3. In the fat of SKF 525A-pretreated mice a slight but statistically significant increase in styrene levels was observed, suggesting that metabolism was decreased; the SO/styrene ratio in the fat of PB-pretreated mice showed a slight, but statistically significant, increase indicating a slight increase in styrene metabolism. Neither SKF 525A nor PB caused changes in microsomal enzyme activity in vitro. 4. These results suggest that styrene may be activated by a pathway not totally dependent upon P450 enzyme activity, or more likely that PB and SKF 525A are not specific for the P450 enzymes involved in activation and detoxification of styrene.
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PMID:Effects of various pretreatments on the hepatotoxicity of inhaled styrene in the B6C3F1 mouse. 914 79

The association between an in vivo oxidative stress condition of the liver and hepatic porphyria during HCB intoxication is postulated. After 30 days of treatment, HCB (25 mg/kg b.w.) promotes an induction of microsomal cytochrome P450 system, increase in microsomal superoxide anion generation accompanied by increased levels of liver lipid peroxidation, as measured by the production of thiobarbituric acid reactants and by spontaneous visible chemiluminescence. Concomitantly, liver antioxidant defenses are slightly modified, with decreased activity of glutathione peroxidase, superoxide dismutase and glucose-6-phosphate dehydrogenase contributing to an oxidative stress condition of the liver. These liver biochemical alterations are closely related to increased levels of urinary coproporphyrin, plasma AST and ALT activities and to the onset of liver morphological lesions.
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PMID:Pro- and anti-oxidant parameters in rat liver after short-term exposure to hexachlorobenzene. 919 4

In a previous study, we found that sodium arsenite increased hepatic ornithine decarboxylase (ODC) activity and hepatic heme oxygenase (HO) activity, but did not cause any DNA damage in adult female rat liver or lung, suggesting that arsenite may be a promoter of carcinogenesis. In this study sodium arsenate, monomethylarsonic acid (MMA) and dimethylarsinic acid (DMA) were administered orally in equitoxic doses to adult female rats at 21 and 4 h prior to sacrifice. DNA damage (DD), cytochrome P450 content (P450), glutathione content (GSH), ODC, serum alanine aminotransferase (ALT) and HO were measured in liver and/or lung tissue. At 60 mg/kg in rat liver, sodium arsenate increased hepatic HO fivefold. MMA decreased ALT at 226 mg/kg, decreased ALT and GSH at 679 mg/kg and also increased P450 at 679 mg/kg in rat liver. DMA decreased ALT and hepatic GSH and increased hepatic HO at 387 mg/kg. In the lung, DMA decreased ODC at both 129 and 387 mg/kg. DD in lung tissue was significantly higher at 387 mg/kg DMA, demonstrating organ specific DNA damage. The biochemical effects and the inferred oncologic potential of the four major forms of arsenic (arsenate, arsenite, MMA and DMA) differ dramatically. The inorganic forms (arsenate and arsenite) are similar to each other (both good HO inducers); the methylated organic forms of arsenic (MMA and DMA) also share a similar pattern of biochemical effects (decreased GSH and ALT, increased P450). All six of the biochemical parameters studied were altered by DMA in either rat liver or lung.
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PMID:Dimethylarsinic acid treatment alters six different rat biochemical parameters: relevance to arsenic carcinogenesis. 926 21

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

The relationship was investigated between biochemical and morphological changes in chloroform (CHCl3)- and carbon tetrachloride (CCl4)-induced liver damage. The time courses of hepatic microsomal cytochrome P450 (CYP) content, hepatic microsomal CYP2E1 activity, hepatic reduced glutathione (GSH) content, plasma alanine aminotransferase (ALT) and aspartate aminotransferase (AST) activities were examined in relation to the liver morphology in rats orally treated with CHCl3 or CCl4 (3.35 mmol/kg). The CYP content and the activity of CYP2E1 markedly decreased in the CCl4-treated rats 3 h after treatment compared to much lower decreases in the CHCl3-treated rats. The hepatic GSH content was decreased to a similar extent in both groups of rats at 3 h after treatment; in the CCl4-treated rats, the GSH content continued to decrease, reaching a minimum at 24 h and without attaining the normal level at 72 h after treatment. By contrast, hepatic GSH content in the CHCl3-treated rats began to increase from 6 h, attaining complete recovery 48 h after treatment. Plasma ALT and AST activities were significantly elevated by CCl4 as early as 3 h after treatment, while the activities in the CHCl3-treated rats did not increase until 6 h after treatment. In both groups of rats, ALT and AST activities reached a maximum at 24 h, and gradually decreased, remaining at abnormal levels at 72 h. Hepatic cells in the CCl4-treated rats were found to be necrotic as early as 3 h post-treatment, whereas few or no morphological changes appeared in the liver of CHCl3-treated rats. The extent of necrosis was at a maximum 24 h after treatment in both CHCl3- and CCl4-treated rats. In addition, some necrotic cells remained in the liver of CCl4-treated rats 72 h after treatment, while the necrosis in the CHCl3-treated rats was almost negligible. The present results indicate that almost the same time-courses of biochemical and morphological changes were followed in rats of both the CHCl3- and CCl4-treated groups.
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PMID:Time courses of hepatic injuries induced by chloroform and by carbon tetrachloride: comparison of biochemical and histopathological changes. 933 1

Dichloroacetic acid (DCA) and chloroform (CHCl3) are both major by-products of drinking water chlorination and DCA increases the hepatotoxicity of CHCl3. In this study, we further characterized this effect and investigated DCA-induced alterations of CHCl3 disposition and metabolism as a possible mechanism for this interaction. Both adult male and female Sprague-Dawley rats were gavaged with three doses (09:00, 16:00 and 09:00 the next morning) of DCA (each 2.45 mmol/kg), then challenged with an i.p. injection of CHCl3 (3.12 or 9.35 mmol/kg). Hepatic damage was assessed 24 h after CHCl3 administration as increased alanine aminotransferase (ALT), ornithine carbomyl transferase (OCT) and bilirubin in plasma. In a separate experiment, rats were pretreated with DCA or were given 14CHCl3 at the same dosages. The disposition of 14C in various tissues and covalent binding of 14CHCl3-derivatives to liver proteins and lipids were determined 1 h later. CHCl3-induced hepatotoxicity was significantly more severe in DCA-pretreated groups. ALT and OCT were more markedly elevated in DCA + CHCl3 (3.12 mmol/kg) groups than NaCl +CHCl3 animals. Plasma bilirubin content was elevated only in DCA + CHCl3 groups and females were more susceptible to this effect. The responses of rats to DCA treatment were somewhat gender-different. DCA treatment increased total cytochrome P450 in females, but not in males. Hepatic glutathione concentration was elevated in males after DCA treatment, but not in females. In the present study we confirmed that DCA pretreatment potentiates the CHCl3-hepatotoxicity of both male and female rats. However, there was little evidence that DCA pretreatment significantly affected CHCl3 disposition or increased CHCl3 binding in vivo.
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PMID:Dichloroacetic acid pretreatment of male and female rats increases chloroform-induced hepatotoxicity. 939 56

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