Hyperpolarization of muscle by insulin in a glucose-free environment

¹ Department of Medicine, Johns Hopkins University and Hospital, Baltimore, Maryland

In a glucose-free solution, insulin increased resting membrane potential of rat extensor digitorum longus muscle by as much as it had in the presence of glucose. Even in the absence of glucose there was probably net accumulation of potassium by muscle, but the increase in muscle potassium concentration was too small to have been the cause of the observed hyperpolarization. It is concluded that insulin hyperpolarizes muscle membrane, as a result of which potassium moves into muscle, and that the eventual effect of insulin on potassium movement can be independent of any effect insulin may also have on glucose uptake.

Note:
With the Technical Assistance of Ellen Rogus and William J. Sullivan

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