| Abstract: | The influence of medium composition on basal and insulin-stimulated glycogenesis was studied in cultured 17-day-old rat fetal hepatocytes, which contain no glycogen at the time of transplantation. Continuous-labeling 14C-glucose experiments were used to determine both glycogen content and glycogen labeling. The specific activity of glucose units in the newly formed glycogen (a) was compared to that of the medium glucose (b): the ratio a/b expresses the contribution of medium glucose to glycogen formation. In standard medium (5.5 mM glucose), this ratio averaged 0.60. Variations of glucose concentration in the medium from 1 to 40 mM were accompanied by a progressive increase in both glycogen content and the ratio a/b (up to 0.80). Supplementation of standard medium with fructose, galactose, glycerol, or lactate-pyruvate decreased the hepatocyte glucose uptake from the medium. Galactose (1 to 5 mM) or lactate-pyruvate (5 mM) enhanced the glycogen content whereas glycerol or fructose (1 to 5 mM) had no effect. The ratio a/b, not modified by glycerol or lactate-pyruvate, was decreased to 0.45 by fructose (5 mM). Galactose at concentrations as low as 1 to 2 mM brought the ratio down to 0.30, indicating that it is a superior precursor of glycogen as compared to glucose. When the hepatocytes were grown in the presence of 10 nM insulin, the glycogen content was constantly higher than in the absence of the hormone (2-fold stimulation). Also the amplitude of the glycogenic effect of insulin was similar whatever the modifications of the medium, whereas ratio a/b and glucose uptake were hardly increased by insulin. Thus several substrates can contribute to glycogen formation (especially galactose) in cultured fetal hepatocytes and the essential effect of insulin is a stimulation of the final step of the glycogenosynthetic pathway. |
