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)

We have previously shown that the rapid clearance of intravenously injected lactate dehydrogenase M4 from plasma is mainly due to endocytosis by macrophages in liver, spleen, and bone marrow. We have now studied endocytosis of lactate dehydrogenase M4 in detail, using freshly isolated rat liver macrophages (Kupffer cells) in vitro. 125I-lactate dehydrogenase M4 rapidly accumulated in the cells and was subsequently degraded to trichloroacetic acid-soluble material. Degradation was inhibited by leupeptin, an inhibitor of lysosomal proteases. Breakdown of the protein was also greatly diminished by treatment of the cells with chloroquine, a weak base which inhibits proteolysis by raising the pH in endosomes and lysosomes. High concentrations of chloroquine inhibited uptake. Lactate dehydrogenase M4 was not endocytosed by liver endothelial cells, although, under the same conditions, these cells were shown to accumulate horse radish peroxidase via a mannose-specific receptor. Uptake of lactate dehydrogenase M4 by Kupffer cells was strongly reduced after pretreatment of the cells with low concentrations of proteases. Endocytosis of lactate dehydrogenase M4 exhibited saturation kinetics (Km = 0.8 microM) and was competitively inhibited by mitochondrial and cytosolic malate dehydrogenase, alcohol dehydrogenase, adenylate kinase, and creatine kinase MM, enzymes which are rapidly cleared in vivo. Enzymes with long half-lives in plasma, namely lactate dehydrogenase H4, alanine aminotransferase, and cytosolic aspartate aminotransferase did not compete at concentrations up to 10 microM. Our results indicate that Kupffer cells contain a receptor that is involved in the clearance of lactate dehydrogenase M4 and a number of other tissue-derived enzymes from plasma. Uptake of lactate dehydrogenase M4 does not occur via a receptor that recognizes carbohydrate residues, for the enzyme is not a glycoprotein.
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PMID:Receptor-mediated endocytosis of lactate dehydrogenase M4 by liver macrophages: a mechanism for elimination of enzymes from plasma. Evidence for competition by creatine kinase MM, adenylate kinase, malate, and alcohol dehydrogenase. 282 Sep 61

The mechanism of the periportal (p.p.) toxicity of allyl alcohol (AlOH) was investigated in p.p. and perivenous (p.v.) hepatocytes isolated by digitonin-collagenase perfusion. The distinct origin of the cell preparations was confirmed by the p.p./p.v. ratios of alanine aminotransferase (p.p./p.v. = 1.8), lactate dehydrogenase (1.3) and glutamine synthetase (0.10). The activity of alcohol dehydrogenase (ADH) was not markedly different in p.p. and p.v. cells. Both types of cells oxidized AlOH at a high but equal rate of about 3 mumol/(min.g cells). Concomitantly with rapid oxidation of 0.7 mM AlOH, glutathione (GSH) was depleted by about 95% and its secretion was completely inhibited in both cell types. Although the GSH content was partially restored during a subsequent 3-h incubation, cellular ATP and K+ content gradually decreased and the leakage of lactate dehydrogenase increased in both types of cells. However, the p.p. cells tended to resist AlOH in vitro better, probably due to their 26% higher GSH content after preincubation with L-methionine. Altering the partial pressure of oxygen in physiological range had no effect on the toxicity of AlOH. The results are contrary to the suggestions that the p.p. location of AlOH liver injury is caused by higher ADH activity or higher oxygen tension in the p.p. zone. Rather, the regiospecificity of the injury may be due to rapid uptake and oxidation of AlOH in the p.p. region.
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PMID:Allyl alcohol cytotoxicity and glutathione depletion in isolated periportal and perivenous rat hepatocytes. 283 85

Rats metabolized a sublethal gastric dose (0.73 mmol/kg) of allyl alcohol (AIOH) within 10-15 min. Oxidation of AIOH to acrolein was accompanied by an equally rapid, but only transient depletion of hepatic reduced glutathione (GSH). GSH was restored to levels above normal within 5 hrs. Simultaneously, AIOH provoked marked elevation of alanine aminotransferase, gamma-glutamyl transpeptidase, and glutamate dehydrogenase activities in plasma and formation of lesions mainly in the periportal regions of the liver. Inhibition of alcohol dehydrogenase by 4-methyl pyrazole completely counteracted these effects. On the other hand, attempts to potentiate the toxicity of acrolein by the aldehyde dehydrogenase inhibitor cyanamide enhanced only the release of alanine aminotransferase. Co-administration of ethanol (3 g/kg) inhibited the rate of AIOH oxidation by more than 90%. Although with ethanol GSH remained depleted for several hours, the release of enzymes was markedly suppressed and the histologic changes completely prevented. These results indicate that the rapid rate of acrolein formation, rather than persistently lowered GSH content, is crucial in the hepatotoxicity of AIOH. They also suggest, that oxidation of acrolein via aldehyde dehydrogenase does not represent a major pathway for its detoxication in vivo.
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PMID:Allyl alcohol liver injury: suppression by ethanol and relation to transient glutathione depletion. 288 87

Sensitive, precise, and rapid methods for the measurement of alcohol dehydrogenase (ADH) and glutamate dehydrogenase (GDH) were developed on the Cobas Bio centrifugal analyser. The optimal pH for ADH in caucasians was 9.8. Non-linearity of ADH enzyme activity was observed when samples were diluted in saline; linearity was restored when inactivated serum was used as diluent. ADH was shown to be a sensitive index of liver anoxia due to cardiorespiratory disturbance (clinical sensitivity 90%) and generalised anoxia. GDH exhibited sensitivity equal to that of alanine aminotransferase (ALT) but was inferior to gamma-glutamyltransferase (GGT) in the detection of specific liver disease. Both ADH and GDH were sensitive indicators of alcoholic liver disease.
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PMID:Adaptation of methods for glutamate dehydrogenase and alcohol dehydrogenase activities to a centrifugal analyser: assessment of their clinical use in anoxic states of the liver. 289 Jun 62

Hepatocytes from 12-day-old rats, pre- and post-natally exposed to alcohol, together with those from pair-fed controls, were isolated and subfractionated in six cell subpopulations on Percoll density gradients. These cells were characterized using a combination of biochemical and stereological methods. The low density cells (F2) mainly showed biochemical and stereological features of perivenous hepatocytes, whereas the heavier cells (F6) were primarily periportal hepatocytes. The alcohol-metabolizing enzymes, alcohol dehydrogenase and aldehyde dehydrogenase (high and low Km) showed more activity in the F2 fraction. Alcohol-altered mitochondria and Golgi apparatus occurred mainly in F2 cells, whereas the endoplasmic reticulum and lysosomes appeared to be more altered in the F6 hepatocytes. Alcohol also induced the appearance of some small hepatocytes, with a well-developed rough endoplasmic reticulum and an increased number of mitochondria. Biochemical data indicated that glutamate dehydrogenase and alanine aminotransferase were more affected in F2 cells from alcohol-treated rats, and that the activity of the ethanol-metabolizing enzymes was alos reduced in these hepatocytes. Our results indicate that alcohol exposure during zonal development in the liver could have a selective effect on specific cell components depending on the acinar zone, and that the perivenous hepatocytes appear to be more damaged under these conditions.
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PMID:A biochemical and stereological study of neonatal rat hepatocyte subpopulations. Effect of pre- and postnatal exposure to ethanol. 289 91

Intact periportal (pp) or perivenous (pv) hepatocytes were prepared by digitonin-collagenase liver perfusion. The degree of separation was indicated by significant differences between the pp and pv cells in their activity of the pp markers, alanine aminotransferase (pp/pv = 2.1), gamma-glutamyltranspeptidase (3.4) and lactate dehydrogenase (1.3), and of the pv markers, glutamate dehydrogenase (0.73) and pyruvate kinase (0.81). This pattern was not altered by a 3-day pretreatment with phenobarbital (PB). The hepatocytes isolated from the pv area contained higher activities of microsomal NADPH-cytochrome c reductase, 7-ethoxycoumarin O-deethylase, 7-ethoxyresorufin O-deethylase and benzo(a)pyrene hydroxylase, and of cytosolic glutathione transferase. Cytochrome P-450 and UDP-glucuronosyltransferase were slightly higher in pv cells. Treatment with PB induced NADPH-cytochrome c reductase, glutathione transferase, cytochrome P-450 and UDP-glucuronosyltransferase but the degree of induction was found to be at least as strong in pp cells as in pv cells. The induction of 7-ethoxyresorufin O-deethylase and 7-ethoxycoumarin O-deethylase was clearly more prominent in pp cells. On the other hand, PB reduced the activities of benzo(a)pyrene hydroxylase and alcohol dehydrogenase in both cell types. These results demonstrate by direct enzyme assay of separated cells the dominance of the pv-region for metabolizing drugs in the normal liver. Contrary to several other studies, however, our data indicate that induction by PB occurs panacinarily, i.e., relatively more in the pp region, thus diminishing rather than exaggerating the original pv dominance.
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PMID:Effect of phenobarbital on the distribution of drug metabolizing enzymes between periportal and perivenous rat hepatocytes prepared by digitonin-collagenase liver perfusion. 302 20

To determine whether serum alcohol dehydrogenase (ADH) activity reflects hepatic damage of centrilobular region (zone 3), the rats were given either bromobenzene (BB) or allyl alcohol (AA) IP to produce the pericen tral or periportal necrosis respectively. After AA or BB serum alanine aminotransferase (ALT) activity showed no significant difference between the two groups. By contrast, serum ADH and glutamate dehydrogenase (GLDH) activities were elevated preferentially in the BB treated rats. However, AA administration to rats also resulted in a significant increase in GLDH activity, whereas ADH activity was only slightly elevated when compared to controls. Moreover, acute ethanol administration to rats resulted in a significant elevation of the serum ADH activity, whereas serum GLDH and ALT activities remained normal. These data suggest that serum ADH activity appears to be a sensitive and specific marker of hepatic centrilobular damage.
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PMID:Alcohol dehydrogenase: a new sensitive marker of hepatic centrilobular damage. 316 Mar 68

Since red cells transport and metabolize acetaldehyde in vivo, the effects of acetaldehyde on human red cell enzyme activities were studied. Incubation of intact red cells or undiluted red cell lysates at 37 degrees C for 4 h with 1-10 mmol/l acetaldehyde decreased only GOT, GPT and aldolase activities among the 26 enzymes tested. No inhibition occurred at 4 degrees C or when acetaldehyde was incubated with dilute hemolysates. Incubation of lysates with other reducing substrates or with acetate inhibited aldolase but not GOT or GPT. Preincubation of lysates with cyanate or fluoride markedly decreased acetaldehyde-mediated transaminase inhibition but not aldolase inhibition. Addition of pyridoxal phosphate, the vitamin B6 transaminase coenzyme, to GOT and GPT assay mixes did not reverse acetaldehyde-mediated transaminase inhibition. These findings suggest that acetaldehyde-mediated aldolase inhibition results from oxidation of acetaldehyde while transaminase inhibition results from nonoxidative acetaldehyde metabolism. When 100-200 mumol/l acetaldehyde is added to lysates at 2-h intervals and when lysates are incubated with ethanol, alcohol dehydrogenase and an NAD-regenerating system, enzyme inhibition occurs at acetaldehyde levels approaching those seen in vivo. Thus, the role of acetaldehyde-mediated enzyme inhibition in the toxicity of alcohol abuse warrants further study.
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PMID:Effects of acetaldehyde on human red cell metabolism: evidence for the formation of enzyme inhibitors. 341 86

Ethanol at initial concentrations between 0.75 and 6 g/l produced a dose-dependent release of the enzymes glutamic-pyruvic-transaminase and sorbitol dehydrogenase (GPT, SDH) from the isolated perfused rat liver. At the concentration of 6 g/l, it also decreased the oxygen consumption and elevated the calcium content of the isolated livers. These toxic effects of ethanol were significantly enhanced in livers, the glutathione content of which had been depleted by pretreatment with phorone. Ethanol-induced toxicity in glutathione-depleted isolated livers could be prevented both by inhibition of alcohol dehydrogenase with 4-methylpyrazole and of xanthine oxidase with allopurinol. In rats, in vivo, 1.6 g/kg ethanol injected intravenously produced a small increase in serum GPT and SDH concentrations 4 h after its administration. This increase in enzyme activities was several-fold higher and longer lasting in rats pretreated with phorone. Glutathione depletion per se did not induce hepatotoxicity in vitro or in vivo. Since glutathione is involved in several lines of defense against oxidative damage, our results of an enhanced susceptibility of glutathione-depleted livers to ethanol toxicity favour the hypothesis that ethanol exerts its hepatotoxic action via an activation of molecular oxygen.
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PMID:Enhancement by glutathione depletion of ethanol-induced acute hepatotoxicity in vitro and in vivo. 360 86

After 7 weeks on a vitamin E deficient diet plasma and liver content of vitamin E were reduced by 60-70%. This treatment, a two week chronic ethanol intake or their combination all caused a significantly higher level of liver glutathione as compared to untreated rats. The chronic ethanol treatment also increased the activity of both alcohol dehydrogenase and aldehyde dehydrogenase and this effect was potentiated by vitamin E deficiency. The activity of the mitochondrial enzyme glutamate dehydrogenase was reduced both by vitamin E deficiency and by ethanol treatment. The activity of the cytosolic alanine aminotransferase was, on the other hand, markedly elevated by vitamin E deficiency, but this effect was completely abolished by ethanol treatment. Several similarities between the effects of chronic ethanol intake and vitamin E deficiency indicates that a poor vitamin E status may potentiate some of the ethanol-induced derangements in the liver.
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PMID:Combined vitamin E deficiency and ethanol pretreatment: liver glutathione and enzyme changes. 378 47

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