Liver disease has been shown to affect the cardiovascular system and may influence cardiac protein metabolism. This hypothesis was tested by measuring rates of cardiac protein synthesis in 2 models of liver disease in rats. The study consisted of 5 groups--group 1: control, injected with saline and fed ad libitum; group 2: acute liver injury, by dosage with 400 mg/kg galactosamine; group 3: injected with saline and pair-fed to group 2; group 4: chronic liver disease, using bile duct ligation; and group 5: sham-operated and pair-fed to group 4. Rates of cardiac protein synthesis were measured using the flooding dose technique. After 1 week, galactosamine injection caused the following cardiac changes, i.e. group (2) versus (3): an increased RNA content, RNA/DNA ratio, and RNA/protein ratio. However, there was no change in DNA or protein content, or protein/DNA ratio. There was an increase in the fractional rate of protein synthesis, and the absolute synthesis rate. Cellular efficiency was increased, but RNA activity remained unchanged. Comparison of groups 4 and 5 showed that bile duct ligation caused no change in any parameters measured. Although comparison of the ad libitum-fed group 1 with the bile duct ligation group 4 showed reduced cardiac weight, protein, and RNA content, with decreased right ventricular absolute synthesis rates; this was also seen in the pair-fed group 5, suggesting that these effects were due solely to reduced oral intake. Thus, although galactosamine-induced acute liver injury caused marked changes in cardiac biochemistry, bile duct ligation per se did not. This study also illustrates the importance of including a pair-fed group.
Copyright 2004 Elsevier Inc.