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Query: UNIPROT:P17174 (
aspartate aminotransferase
)
14,872
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Triiodothyronine (T3) treatment of pregnant rats for 6 days, 10 micrograms/100 g, resulted in a pronounced induction of enzymes related to gluconeogenesis and lipogenesis and of mitochondrial
FAD
-glycerophosphate dehydrogenase in the maternal liver, as previously observed in male rats. There was virtually no change in the activity of these enzymes in the placenta. However, there was a distinct induction of these enzymes in the fetal liver, even if increments in fetal serum and liver T3 were much smaller than on the maternal side. This indicates that changes in hepatic enzyme activities are a more sensitive index of fetal hyperthyroidism than T3 levels. The increased lipogenic capacity was expressed by greater incorporation of a tritium tracer into fatty acids. Administration of triamcinolone, 2 mg/100 g, for the last 5 days of gestation resulted in marked induction of maternal hepatic enzymes of lipogenesis, gluconeogenesis and of
aspartate aminotransferase
(
ASAT
), known to occur in male rats, as well as in a metabolic pattern of insulin resistance. The response of placental enzymes was limited to a small elevation in
ASAT
and phosphoenolpyruvate carboxykinase (PEPCK) activity. In the fetal liver there was no stimulation of lipogenic enzymes, but a marked induction of PEPCK and
ASAT
. The changes in the lipogenic capacity were confirmed by tritium incorporation into serum and liver fatty acids. These results demonstrate the marked sensitivity of specific fetal enzyme systems to the maternal iatrogenic hyperthyroidism or hypercorticism. The limited alterations in placental enzyme activities are in accord with the concept that placental metabolic stability fulfils a protective function toward the fetus.
...
PMID:Modulation of fetal and placental metabolic pathways in response to maternal thyroid and glucocorticoid hormone excess. 813 95
The hepatocellular necrogenic and regenerative responses of newly weaned rats (21 days old) to a sublethal dose of thioacetamide (6.6 mmol kg-1) were studied in comparison to adult (6-month old rats), in terms of liver injury, antioxidant defense systems and cell proliferation. Hepatocellular necrosis, detected by serum
aspartate aminotransferase
, was less severe in newly weaned rats than in adult animals and was parallel to previous changes in the activity of microsomal
FAD
monooxygenase system responsible for thioacetamide biotransformation. Liver damage in hepatocytes from newly weaned rats was also detected by the decreased levels of glutathione and protein thiol groups (47%, p < 0.001 and 52%, p < 0.001 vs. untreated, respectively) and by the enhanced malondialdehyde production (334%, p < 0.001) and glutathione S-transferase activity (384%, p < 0.001). No significant differences were detected in these values when compared to adults. Changes in cytosolic and mitochondrial superoxide dismutase and catalase activities in hepatocytes from newly weaned rats at 24 h, following thioacetamide (49%, p < 0.001; 50% and 53%, p < 0.001 vs. untreated, respectively), were less severe against those in adult hepatocytes at 48 h of intoxication, and the increases in glutathione peroxidase and glutathione reductase activities were significantly lowered: 25% (p < 0.001) and 41% (p < 0.001), respectively. Post-necrotic DNA synthesis in hepatocytes from newly weaned rats peaked at 48 h of intoxication, while in adults a more intense peak appeared at 72 h preceded by a sharp decrease in tetraploid population. These differences indicate that the lower necrogenic response against the same dose of thioacetamide in newly weaned rats may be due to the lower rate of thioacetamide biotransformation and to the earlier onset of cell division. Accordingly, the growing liver from newly weaned rats presents advantages against the necrogenic aggression of thioacetamide, first, because the diminished activity of its specific microsomal detoxification system, and second because the earlier increase in the proliferative response prevents the progression of injury permitting an earlier restoration of liver function.
...
PMID:Necrogenic and regenerative responses of liver of newly weaned rats against a sublethal dose of thioacetamide. 960 62
Age-associated changes in liver injury and post-necrotic regeneration were studied in rats aged 6 and 30 months in a period of 96 h following a dose of thioacetamide (6.6 mmol/kg body weight). Hepatocellular necrosis was detected in both groups by serum
aspartate aminotransferase
, but the severity of injury was significantly lower (one fourth, p < 0.001) in the oldest. Differences were observed in hepatocyte
FAD
monooxygenase activity between 6 and 30 months old rats at 24 h (278 versus 170%, p < 0.001, respectively) and also in GSH/GSSG ratio, in protein thiol groups and in malondialdehyde. Glutathione peroxidase, glutathione reductase and glucose-6-phosphate dehydrogenase activities rose markedly in both groups, this increase being slightly lower in the oldest. Superoxide dismutase and catalase did not show significant changes between both groups. At the end of the 96 h experimental period the restoration towards normal of GSG/GSSG, protein thiols malondialdehyde and the activities of Cu-Zn superoxide dismutase and catalase were significantly lower in hepatocytes from 30 months old rats. We summarize that the main age-related changes in the sequenced process of liver injury and regeneration occurred to a lesser extent in severity of injury and delayed response in the post-necrotic restoration of liver function, probably due to a lower increase in antioxidant enzyme system.
...
PMID:Aging delays the post-necrotic restoration of liver function. 969 17
1. When aminoguanidine, a nucleophilic hydrazine compound, was administered to rats (50 mg kg(-1) body wt) 30 min before a necrogenic dose of thioacetamide (500 mg kg(-1) body wt), significant changes related to liver injury and hepatocellular regeneration were observed. 2. The extent of necrosis was noticeably less pronounced, as detected by the peak of serum
aspartate aminotransferase
activity. Depletion of hepatic glutathione (GSH) and the increase in malondialdehyde concentration as markers of oxidative stress, produced by thioacetamide metabolism, were significantly diminished. However, the activity of microsomal
FAD
monooxygenase, the system responsible for thioacetamide oxidation, did not show significant alterations. Antioxidant enzyme systems involved in the glutathione redox cycle, such as glutathione reductase and glutathione peroxidase activities, slightly decreased following aminoguanidine pretreatment. 3. Primary cultures of peritoneal macrophages from control rats, when incubated in the presence of serum collected following thioacetamide intoxication, showed a significant decrease in nitric oxide (NO) release at 24 h, that was more pronounced in the group pretreated with aminoguanidine. However, the sharp and progressive increase in macrophage NO release, when incubated in the presence of serum obtained at 48, 72 and 96 h, were increased by aminoguanidine-pretreatment. 4. The cell population involved in DNA synthesis sharply increased in both groups at 48 h of intoxication, although the values at 0, 24, 72 and 96 h were markedly higher in the group pre-treated with aminoguanidine. Polyploidy at 72 and 96 h of intoxication was delayed by the effect of aminoguanidine and a progressive increase in the hypodiploid hepatocyte population, which reached 16% of the total at 96 h, was observed. 5. These results indicate that a single dose of aminoguanidine before thioacetamide administration, markedly diminished the severity of the liver injury by decreasing oxidative stress and lipoperoxidation, but hepatocellular regeneration was apparently unaffected probably due to an enhanced mitogenic activity.
...
PMID:Influence of aminoguanidine on parameters of liver injury and regeneration induced in rats by a necrogenic dose of thioacetamide. 977 49
Age-dependent changes related to liver injury and regeneration were studied in rats aged 2, 12, and 30 months in a time period of 96 hr following a sublethal dose of thioacetamide (6.6 mmoles/kg body wt). Serum
aspartate aminotransferase
activity increased earlier in young rats, but the severity of injury was higher in those aged 12 months when compared to young and to old. Microsomal hepatocyte
FAD
monooxygenase activity was induced earlier in 2-month-old rats following intoxication and the increase was significantly lower both in the youngest and in the oldest groups when compared to adults. As a parameter of hepatocellular postnecrotic regeneration, DNA synthesis (2C --> 4C) was evaluated. The population of hepatocytes in S phase peaked more sharply and earlier in young rat hepatocytes, and was 8 to 12 times higher than the initial in hepatocytes from 2- and 12-month-old rats, while the rise was only 3 times in the oldest group. At 96 hr of intoxication the restoration towards normal in all these parameters was complete in young, incomplete in adult, and slightly detected in the oldest. Serum proliferative activity, assayed on mouse NIH 3T3 fibroblast cultures, increased preceding the necrosis and this increase was higher in 2- and 12-month-old (171% and 224%, respectively), while in the oldest the increase was only 110%. This mitogenic activity decreased in all groups during necrosis, showing a second peak, nondetectable in rats aged 30 months, parallel to regeneration. Serum TNFalpha level was absent in untreated animals and increased markedly following intoxication, the highest values being recorded at 72 hr of intoxication in serum from rats aged 12 months (347 +/- 30 pg/ml) and the lowest at 30 months (4.1 +/- 0.3 pg/ml). The serum ability to induce nitric oxide synthase activity on peritoneal macrophages ex vivo showed significant time- and age-dependent changes in nitric oxide release: a decrease throughout necrosis and an increase during regeneration. We conclude that the main age-related changes in the sequenced process of liver injury and regeneration are the delayed response in the development of cell killing and regeneration and the decreased regenerative ability, which significantly delays the restoration of liver function.
...
PMID:Age-related changes on parameters of experimentally-induced liver injury and regeneration. 988 90
The ability of phenobarbital to induce the expression and activity of microsomal drug monooxygenases in the liver presents one of the most important issues in the field of chemical interactions and in the toxicity of xenobiotics. The model of rat liver injury induced by a single dose of thioacetamide (500 mg/kg intraperitoneally) was used to study the effect of phenobarbital (80 mg/kg/day intraperitoneally) for 5 days prior to thioacetamide. Serum parameters of liver injury such as
aspartate aminotransferase
activity, gamma-glutamyl transferase activity and the total bilirubin levels, as well as the activities of hepatic
FAD
and cytochrome P450 microsomal monooxygenases, were assayed in 2- and 12-month-old rats. Samples of blood and liver were obtained from controls (injected at 0 h with 0.5 ml of 0.9% NaCl) and at 12, 24, 48, 72 and 96 h of thioacetamide intoxication either to non-treated or phenobarbital pretreated rats. Potentiation of thioacetamide hepatotoxicity by phenobarbital pretreatment was demonstrated at morphological level, and by significant increases in the activities of serum
aspartate aminotransferase
and gamma-glutamyl transferase, and in the levels of total bilirubin. The extent of potentiation of thioacetamide-induced liver injury by phenobarbital pretreatment was similar in both age groups. Microsomal
FAD
monooxygenase activity, the enzyme responsible for thioacetamide biotransformation, was significantly enhanced (twofold) by phenobarbital pretreatment, and also underwent a further increase following thioacetamide, preceding the peak of necrosis. Cytochrome P450 monooxygenases were induced by phenobarbital pretreatment more than sixfold, and sharply decreased when phenobarbital was withdrawn and thioacetamide administered, showing at 48 h intoxication values close to basal. Phenobarbital pretreatment potentiated thioacetamide necrogenicity, and this potentiation was parallel to the induction of the microsomal
FAD
monooxygenase system, both by phenobarbital and by thioacetamide itself. The extent of thioacetamide-induced liver injury was significantly higher in 12-month-old rats, but the effect of phenobarbital pretreatment was similar in both age groups.
...
PMID:Potentiation of thioacetamide hepatotoxicity by phenobarbital pretreatment in rats. Inducibility of FAD monooxygenase system and age effect. 1067 Aug 21
