Role of changes in protein degradation in the growth of regenerating livers.

The significance of changes in rates of synthesis, export, and degradation of proteins during liver regeneration was assessed. (a) Proteins were pulse labeled by the intravenous injection of radioactive leucine and, 5 min later, pactamycin (an inhibitor of the initiation of protein synthesis). One-half of the protein radioactivity was lost from the normal liver within 3 hours. From the radioactivity of the plasma proteins at that time and a study of the disappearance of these proteins from the circulation, it was calculated that 28% of the newly synthesized proteins were exported. Serum albumin accounted for a third of the exported proteins. Thirty-six hours after partial hepatectomy the proportion of albumin to total protein synthesis remained constant, while that of the other plasma proteins increased by 50%. The fraction of the newly synthesized proteins retained by the liver after 3 hours decreased by 20%. (b) During the first 36 hours of liver regeneration the average rates of protein degradation slowed down to one-half the normal values. This was determined either by the loss of radioactivity from total protein (or the guanidino-C of protein-bound arginine) in livers labeled with [14C]bicarbonate, or calculated as the balance between protein synthesis and net protein gain. (c) From these results, and those of our previous study of the protein synthetic machinery of normal and regenerating livers (Scornik, O.A. (1974)J. Biol. Chem. 249, 3876-3883), we conclude that changes in the rate of protein degradation are the single most important factor determining the increase in protein content during liver compensatory growth.