Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P17174 (aspartate aminotransferase)
 14,872 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Carbon tetrachloride (CCl4) added to isolated rat hepatocytes produces toxic effects which were assessed by monitoring the release of aspartate aminotransferase (ASAT). CBrCl3 was equitoxic with CCl4, while CHCl3 was inactive, suggesting solvent properties not to be involved. The CCl4-mediated toxicity was markedly decreased by carbon monoxide, indicating possible activation by cytochrome P 450. 55 flavonoid compounds were tested for their ability to interfere with CCl4-induced release of ASAT. The compounds are cianidanol, 3-ethers and 3-esters thereof, flavanones, flavanolols, flavones and flavanols. The more hydrophilic compounds inhibit the CCl4-induced toxicity, while the lipophilic derivatives are potentiators. No other structure-activity relationships are apparent. The results are discussed in terms of the mechanisms of action of the compounds and of the validity of the technique as a screening test for hepatotropic agents.
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PMID:Inhibiting or potentiating effects of flavonoids on carbon tetrachloride-induced toxicity in isolated rat hepatocytes. 377 62

To study the influence of hepatic metallothionein (MT) on the hepatotoxic response to carbon tetrachloride (CCl4), adult male rats were pretreated with a 10 mg X kg-1 dose of zinc (Zn) 24 h prior to CCl4 (i.p., l mL X kg-1) treatment. Zn pretreatment increased the hepatic MT concentrations markedly and reduced the magnitudes of the CCl4-induced reduction of cytochrome P450 concentration as well as elevation of serum alanine aminotransferase and aspartate aminotransferase activities when determined at 4 or 24 h following CCl4 treatment. Treatment of Zn-exposed animals with CCl4 also resulted in significant reduction of the concentrations of hepatic MT (as determined by the cadmium-saturation method) as well as cytosolic Zn. Sephadex G-75 chromatographic study of hepatic cytosols showed that MT-bound Zn was selectively depleted by CCl4 exposure. Moreover, it was demonstrated that CCl4, after metabolic activation, reduced the cadmium binding capacity of Zn-induced hepatic MT in vitro. To examine the possible protective effect of Zn independent of induction of MT synthesis, CCl4 was administered 2 h following Zn pretreatment and the hepatotoxic response was examined 4 h later. This study revealed limited protection by Zn prior to the induction of MT synthesis. These data further support a role of MT in the modulation of CCl4 hepatotoxicity.
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PMID:Interaction of metallothionein and carbon tetrachloride on the protective effect of zinc on hepatotoxicity. 379 Oct 46

Repeated doses of the protein synthesis inhibitor cycloheximide prevented the increases in rat liver mitochondrial and cytosolic aspartate aminotransferase, in alanine aminotransferase and in protein content observed 24 h after a single carbon tetrachloride injection. Serum aminotransferase activity increases induced by carbon tetrachloride were also decreased as much as 75.7% with cycloheximide. Increased synthesis is, therefore, suggested as an important and sometimes major source of increased serum aminotransferases in hepatocellular injury. This effect of cycloheximide lends support to the hypothesis that the liver enzyme increases after CCl4 are probably due to increased synthesis, in addition to the classically held mechanisms of leakage from necrotic or damaged hepatocytes. This explanation of the mechanisms of release of aminotransferases in rat liver injury would clarify many clinical observations if the same phenomenon were to occur in humans in response to hepatic injury. These data suggest that increased serum aminotransferase activities represent a healing, in addition to a degenerative, process.
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PMID:Source of increased serum aspartate and alanine aminotransferase: cycloheximide effect on carbon tetrachloride hepatotoxicity. 395 44

Both cytosolic (c-AAT) and mitochondrial (m-AAT) isozymes of aspartate aminotransferase (EC 2.6.1.1) appear in serum in some diseases including hepatobiliary dysfunction. The present study aimed at elucidation of the mechanism by which AAT isozymes are cleared from blood. Intravenous injection into rats of m-AAT and c-AAT purified from rat liver exhibited a biphasic clearance curve with an overall half-life of 42 min and 4.7 hr, respectively. The tissue distribution of the radioactivity following intravenous administration of 125I-labeled isozymes revealed that the liver is a major organ involved in plasma clearance of these isozymes. This conclusion was also supported by the significant retardation in plasma clearance of m-AAT in hepatectomized as well as CCl4-intoxicated rats. Furthermore, clearance rate of each AAT isozyme in an isolated perfused liver exhibited a single exponential process with the uptake rate for m-AAT being much faster than that for c-AAT. Separation of hepatocytes and sinusoidal liver cells from the rat intravenously injected with 125I-labeled AAT isozymes revealed that sinusoidal cells were responsible for the plasma clearances. In vitro uptake study showed that both isozymes were exclusively taken up by sinusoidal liver cells. The uptake rate for m-AAT was considerably greater than that for c-AAT. Endocytotic index for uptake by sinusoidal cells was 16 times with c-AAT and 34 times with m-AAT as compared with that for inulin or dextran which are taken up by fluid-phase endocytosis, suggesting involvement of adsorptive endocytosis in the uptake of the isozymes.
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PMID:Plasma clearance of intravenously injected aspartate aminotransferase isozymes: evidence for preferential uptake by sinusoidal liver cells. 399 68

The effects of the administration of tryptophan and/or cysteine on carbon tetrachloride (CCl4)-induced hepatic injury were investigated. Rats received CCl4 (1 ml/kg ip) followed 6 hr later by tryptophan (300 mg/kg) and/or cysteine (950 mg/kg) via stomach tube and rats were killed after 24 hr. Treatment with tryptophan, cysteine, or both reduced the degree of hepatic necrosis observed histologically. While CCl4 caused polyribosomal disaggregation and decreased [14C]leucine incorporation into liver proteins in vitro and in vivo, treatment with tryptophan, cysteine, or both caused a shift in polyribosomes toward heavier aggregation and protein synthesis was increased. Serum activities of lactic dehydrogenase (LDH), glutamate oxaloacetate transaminase, glutamate pyruvate transaminase, and gamma-glutamyl-transpeptidase were markedly increased after CCl4 alone but after subsequent treatment with cysteine or with tryptophan and cysteine appreciable decreases occurred. Glutathione concentration decreased but total amount remained constant in the livers of CCl4-treated rats while subsequent treatment with cysteine alone or together with tryptophan elevated both levels of glutathione. Using isolated hepatocytes, CCl4 caused decreases in cell viability, in release of LDH, and in [14C]leucine incorporation into protein. Treatment with CCl4 and tryptophan and/or cysteine revealed that cysteine alone or with tryptophan improved cell viability and decreased LDH release of the cells, while tryptophan alone or with cysteine improved protein synthesis. Upon cytologic evaluation, the isolated hepatocytes revealed membrane distortions after CCl4 alone but these were less marked after CCl4 plus tryptophan, cysteine, or both (most improvement). Thus, tryptophan and cysteine act in a beneficial manner against CCl4-induced hepatic injury in the rat.
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PMID:Protective effect of tryptophan and cysteine against carbon tetrachloride-induced liver injury. 406 14

Hyperbaric oxygen (HPO) was administered to rats (100% O2 at 2.8 atm for 90 min) immediately or 1 hr after severe carbon tetrachloride (CCl4) intoxication in order to study the mechanisms of protection against hepatocellular injury by hyperoxia. Slight to moderate hepatocellular injury was observed, particularly by morphologic criteria, 4 hr after CCl4 intoxication. Little cell death was observed; 24 hr after CCl4, 20% of the untreated animals died. In the survivors, the following typical changes occurred in the liver: extensive hepatocellular swelling, vacuolization and necrosis; severe ultrastructural alterations; binding of CCl4 to microsomal lipids; elevation of lipid peroxidation products (conjugated dienes); little decrease in cytochrome b5 and severe decrease in cytochrome P-450 levels. Serum transaminase (alanine aminotransferase and aspartate aminotransferase) levels were elevated. Immediate treatment with HPO prevented the mortality and markedly decreased the hepatocellular necrosis 24 hr after intoxication. Immediate HPO treatment did not lower the levels of free CCl4 in the liver. However, the rise in lipid peroxidation products caused by CCl4 intoxication at 4 hr was reduced. Delayed treatment with HPO (1 hr after CCl4) prevented the mortality but was less effective in preventing necrosis. Some hepatocellular protection was still demonstrable. In particular, the rise in lipid peroxidation products was reduced. Hyperoxia protects hepatocytes against CCl4 toxicity. The rapid decline in protective effect within 60 min of intoxication suggests that hyperoxia inhibits CCl4 activation and/or damage from molecular intermediates. Hyperoxia has little effect on the progression of sublethal injury to cell death in the livers of CCl4-intoxicated rats.
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PMID:Protection of hepatocytes with hyperoxia against carbon tetrachloride-induced injury. 653 53

The previously reported increases in liver and serum aspartate aminotransferase (ASAT) activities and liver protein content 24 hours after the administration of carbon tetrachloride (CCl4) were reduced by administering multiple doses of the protein synthesis inhibitor cycloheximide (CH). Liver ASAT and protein content were reduced to saline-injected control levels, and the serum ASAT increase was reduced by 45.0 percent in rats given CH. Although there are morphological features of severe hepatotoxicity in the cycloheximide-carbon tetrachloride-injected rats, cycloheximide does reduce the severity of these lesions and the regenerative response. These findings lend some support to the hypotheses that (1) the increase in liver ASAT activity and protein content after CCl4 is due to increased synthesis and (2) the increase in serum ASAT after CCl4 is most likely due to a combination of increased synthesis and leakage from necrotic and damaged cells.
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PMID:Effect of cycloheximide on increased aspartate aminotransferase in carbon tetrachloride hepatotoxicity. 669 88

The hepatotoxic effect of carbon tetrachloride (CCl4), reflected by augmented blood aspartate aminotransferase and alanine aminotransferase activities and the extent of histological liver damage, was observed following oral administration of CCl4 to rats. A marked increase of blood transaminase activities and severe degeneration of hepatocytes in the centrilobular region were detected 1-2 days after the administration, while the cytochrome P-450 content and the drug metabolizing activity in livers were depressed immediately after the administration. Based on these results, the effect of CCl4 on hepatic cytochrome P-450 and the histological pattern of liver cells was observed using tissue samples obtained from various liver lobes of rats given CCl4 24 hr previously. Dose-dependent inactivation of cytochrome P-450 by the administration of CCl4 was observed throughout the liver, with the most extensive decrease in the cytochrome content in the median lobe. The extent of liver damage (hydropic swelling degeneration and central necrosis in lobule) was also greater in the median and right liver lobes than in the left lobe. When a small amount of CCl4 was administered, degeneration of liver cells was detected only in the median and right lobes with only slight degeneration in the left lobe. These results indicate different susceptibilities of rat liver lobes to CCl4.
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PMID:Carbon tetrachloride-induced hepatotoxicity in rats: evidence for different susceptibilities of rat liver lobes. 688 48

In order to test the possibility of metallothionein (MT) transfer from liver to kidney, experimental hepatic disorders produced by hepatotoxins were examined to study the release of MT from liver. 109Cd exposed rats were treated with carbon tetrachloride (CCl4) and the distribution of cadmium (Cd) in the body was studied. Hepatic Cd was significantly decreased corresponding to the dose of CCl4. Cd in plasma, kidney, and urine was increased remarkably in contrast with the decrease of hepatic Cd. No remarkable changes in Cd of other tissues and feces were observed. These phenomena were produced by other hepatotoxins like galactosamine and ethionine, and long-term administration of Cd, too. In every case that plasma Cd increased markedly, plasma levels of glutamate oxaloacetate transaminase (GOT), glutamate pyruvate transaminase (GPT), and lactate dehydrogenase (LDH) rose simultaneously, and a significant, positive correlation between Cd concentration and each of enzyme activities in plasma was observed. Cd in hepatic supernatant of CCl4 treated rats was bound mostly to MT fraction, and in kidney, plasma or urine, Cd was also in the form of MT. These results suggest that hepatic MT can be released into blood in the same manner as hepatic enzymes and transported to kidney and urine in some types of hepatic disorders.
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PMID:Effects of hepatic disorder on the fate of cadmium in rats. 705 69

Adult female dogs or pony mares were subjected to a nonlethal dose of CCl4 (0.5 ml/kg of body weight). Amounts of several plasma enzymes thought to be indicative of hepatic disease were monitored. Plasma enzymes alanine aminotransferase, aspartate aminotransferase (AST), alkaline phosphatase (ALP), arginase, gamma-glutamyltransferase (GGT), and iditol dehydrogenase (ID), as well as total plasma bilirubin, were determined in these animals before and after the administration of the CCl4. In the dog, GGT was not significantly increased, whereas ALP values were increased during days 1 to 6. In the pony, GGT was significantly increased during the entire course of the study, whereas ALP exhibited only small, transient (though significant) increases. Responses of ID, AST, and ALP were unremarkable when compared between the pony and the dog. Total bilirubin was significantly (P less than or equal to 0.05) increased from days 1 to 4 (pony) or days 5 to 8 (dog) after the CCl4 dose, but subsequently returned to or decreased below base-line values. Animals did not have evidence of icterus at any time. Seemingly, the dog and the pony are distinct clinical entities, and only the appropriate laboratory tests for each species should be used to provide information for the clinicopathologic evaluation of hepatic disease.
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PMID:Variations of plasma enzymes in the pony and the dog after carbon tetrachloride administration. 733 28


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