Hepatology : official journal of the American Association for the Study of Liver Diseases
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A rat albumin cDNA probe (pBR alb 149) was developed in order to investigate the molecular mechanisms responsible for changes in hepatic protein synthesis after chronic administration of ethanol to rats. Rats fed a diet for up to 1 year in which 36% of calories were from ethanol, developed fatty livers but not cirrhosis. Cell-free protein synthesis with liver membrane-bound polysomes of ethanol-fed rats was increased as compared to control membrane-bound polysomes, whereas protein synthesis with free polysomes was unchanged. ⋯ Analysis of RNA molecules separated according to molecular weight by gel electrophoresis and hybridized with recombinant-cloned albumin cDNA demonstrated an increase in full-sized albumin mRNA species in ethanol-fed animals. Therefore, chronic ethanol administration appears to increase albumin synthesis by increasing the steady-state level of biologically active albumin mRNA in liver membrane-bound polysomes. Despite development of fatty liver, the protein synthesis machinery functions normally.
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The reticuloendothelial system has been implicated in galactosamine-induced liver injury because of a correlation between phagocytic alterations induced by colloidal carbon or endotoxin, and development of liver necrosis. To evaluate this concept, the influence of galactosamine on liver function and histology was determined in rats in which the reticuloendothelial system was normal, stimulated, or depressed. Methyl palmitate was used as a reticuloendothelial system suppressant, and glucan was used as a reticuloendothelial system activating agent. ⋯ In contrast, activation of the reticuloendothelial system by glucan increased galactosamine-induced alterations in serum bilirubin, glucose and cholesterol concentrations, glutamic oxalacetic transaminase, glutamic pyruvic transaminase and lactic dehydrogenase activities, and sodium sulfobromophthalein retention. Liver necrosis and inflammation were also increased. These findings suggest that the degree of galactosamine-induced liver injury is directly correlated with macrophage function when specific macrophage-modifying agents are used.