Abstract
Summary
The effect of cycloheximide (1.5 mg/kg), a potent inhibitor of protein biosynthesis, on D-galactosamine (375 mg/ kg)-induced hepatic necrosis and hepatic triglyceride accumulation was studied in rats. Serum transaminase levels, 24 hr after D-galactosamine administration, were significantly reduced in animals treated simultaneously or 4 hr before D-galactosamine with cycloheximide, when compared to animals given D-galactosamine alone. Transaminase levels in rats given cycloheximide 4 hr after D-galactosamine were not reduced. Histological grading of hepatocyte necrosis showed a similar pattern of protection in the pretreated and simultaneously treated groups. Hepatic triglycerides were significantly reduced only in the latter group.
Fatality 48 hr after D-galactosamine administration was significantly less common in rats pretreated with cycloheximide when compared to rats given D-galactosamine without cycloheximide, and surviving animals in the cycloheximide pretreated group had a lower serum transaminase level, a lower necrosis score, and a reduced hepatic triglyceride level.
These data are consistent with the concept that protein synthesis is important in the pathogenesis of D-galactosamine-in-duced hepatotoxicity.
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