Rates of degradation of glycoproteins from normal and regenerating rat livers: A study using double isotopes

The average decay rates (half-lives) of mixed glycoproteins were measured using double isotopes of fucose and glucosamine and compared to those of mixed overall proteins measured with leucine and NaH¹⁴CO₃ in whole homogenates and plasma membranes from normal and regenerating rat livers. A large reutilization of leucine was observed under both normal and regenerating conditions. Fucose seems to be recycling most predominantly in regenerating liver, whereas glucosamine was found to be very little if not at all reutilized under both conditions. Comparison of the results obtained with NaH¹⁴CO₃ and glucosamine demonstrated that glycoproteins from normal liver homogenate are degraded at a faster rate than mixed proteins. Contrary to that of mixed proteins, the half-life of glycoproteins remains unchanged during liver regeneration, and the use of glucosamine revealed that the degradation of plasma membrane glycoproteins is identical to that found in whole homogenate under both normal and regenerating conditions. Finally, the relative degradation rates of fractionated plasma membrane proteins and glycoproteins were evaluated under the same conditions. During liver regeneration some readjustments are observed in the relative degradation rates of individual species which suggest that the synthesis and degradation of the various surface membrane glycoproteins proceed at rates that are controlled independently.