HETEROGENEITY OF GLYCOGEN-SYNTHESIS UPON REFEEDING FOLLOWING STARVATION

1. Starvation of rats for 40 hr decreased the body weight, liver weight and blood glucose concentration. The hepatic and skeletal muscle glycogen concentrations were decreased by 95% (from 410-mu-mol/g tissue to 16-mu-mol/g tissue) and 55% (from 40-mu-mol/g tissue to 18.5-mu-mol/g tissue), respectively. 2. Fine structural analysis of glycogen purified from the liver and skeletal muscle of starved rats suggested that the glycogenolysis included a lysosomal component, in addition to the conventional phosphorolytic pathway. In support of this the hepatic acid alpha-glucosidase activity increased 1.8-fold following starvation. 3. Refeeding resulted in liver glycogen synthesis at a linear rate of 40-mu-mol/g tissue per hr over the first 13 hr of refeeding. The hepatic glycogen store was replenished by 8 hr of refeeding, but synthesis continued and the hepatic glycogen content peaked at 24 hr (approximately 670-mu-mol/g tissue). 4. Refeeding resulted in skeletal muscle glycogen synthesis at an initial rate of 40-mu-mol/g tissue per hr. The muscle glycogen store was replenished by 30 min of refeeding, but synthesis continued and the glycogen content peaked at 13 hr (approximately 50-mu-mol/g tissue). 5. Both liver and skeletal muscle glycogen synthesis were inhomogeneous with respect to molecular size; high molecular weight glycogen was initially synthesised at a faster rate than low molecular weight glycogen. These observations support suggestions that there is more than a single site of glycogen synthesis.