Daily administration of glucocorticoids for 10 days to dogs resulted in a significant increase in the hepatic bile secretion in response to secretory stimulants. The response of hepatic bile in testosterone-treated animals was not changed and the response was increased in DOCA--treated animals. A significant increase of liver weight was induced by the animals receiving glucocorticoids. Other organ weight was not changed; however, a slight reduction of kidney weight was seen in prednisolone, dexamethasone, and DOCA treated animals and also in animals supplemented with cortisone following adrenalectomy. The presence of large areas of ballooning and vesicular changes of liver cells was seen in glucocorticoid treated animals, particularly in cases of dexamethasone and prednisolone. Both vesicular changes of liver cell and its glycogen content were increased by the repeated administration of prednisolone and reduced by the cessation of treatment. Special stain and liver glycogen determination demonstrated the material distending the liver cell was glycogen. These findings indicate that long term administration of glucocorticoids results in an increase of liver weight and hepatic glycogen content as well as increased bile secretion.
Animal ; Bile/secretion* ; Bile Acids and Salts/metabolism ; Bilirubin/secretion ; Cholagogues and Choleretics/pharmacology ; Dogs ; Glucocorticoids/pharmacology* ; Liver/drug effects* ; Liver/pathology ; Liver Glycogen/metabolism ; Organ Weight ; Substances: ; Bile Acids and Salts ; Cholagogues and Choleretics ; Glucocorticoids ; Liver Glycogen ; Bilirubin

The effects of cholic acid and eight related cholanic acid analogs on bile flow and biliary excretion of bile salts and cholesterol were studied in rabbits. Bile acids were infused intravenously in anesthetized rabbits. In all except hyodeoxycholic or lithocholic acid treated animals increases in bile flow were recorded within 10 minutes during infusion of bile acid-The increase in bile f1ow associated with an increase in bile salt level in bile after cholic acid infusion was observed, however, there were little changes in biliary, cholesterol levels. Bile salt level in bile was not associated with bile flow after chenodeoxycholic acid infusion but the cholesterol level in bile was significantly increased. Ursodeoxycholic acid similarly increased cholesterol but to a lesser extent. Keto-forms of chenodeoxycholic acid were without action. These results indicate that both cholic and chenodeoxycholic acids have the capacity to alter specific biliary excretion of bile components, the former on bile salts and the latter on cholesterol-a precursor of bile acids in bile.
Animal ; Bile/analysis ; Bile/secretion* ; Bile Acids and Salts/administration & dosage ; Bile Acids and Salts/metabolism ; Bile Acids and Salts/pharmacology* ; Bilirubin/analysis ; Cholesterol/analysis ; Cholesterol/metabolism* ; Cholic Acids/analogs & derivatives ; Cholic Acids/analysis ; Female ; Liver/metabolism ; Male ; Rabbits