Stimulating role of potassium ions and ouabain on glycogen synthesis in adipose tissue.

1. Exposure of fat-pads to increasing concentrations of K+ in the presence of insulin stimulates the incorporation of labelled glucose into glycogen. In the absence of hormone, only a slight incorporation of glucose into glycogen and slight glucose oxidation were detectable. 2. Ouabain alone, up to 100 microM, had no effect on synthesis of glycogen. Ouabain reinforced the effect of insulin on the conversion of glucose into glycogen in a Na+ medium and in a equimolar Na+-K+ medium, but not in a K+ medium. In addition, ouabain modified the optimal K+/Na+ ratio for glycogen synthesis. 3. The proportion of glycogen synthase in the active form was increased in a K+ medium, and a faster rate of conversion of synthase b into a was observed under these conditions. No difference was detected in the rate of inactivation of phosphorylase in a K+ or a Na+ medium. 4. Even though these results, taken together, are consistent with the proposed role of phosphorylase a in the regulation of synthase activation, the molecular mechanism of action of K+ in adipose tissue in increasing synthesis of glycogen cannot be explained simply by a faster inactivation of phosphorylase a. It is concluded that some undetermined effector(s) or signal could itself be a primary determinant for the greater activation of synthase observed in a K+ medium.