Adaptation of the cardiac muscle sodium pump to chronic potassium deficiency

Abstract

During chronic dietary K⁺ depletion in rabbits there is a significant reduction of intracellular K⁺ concentration ([K⁺]i) in skeletal muscle, but not in the heart. After 1 week of subsequent K⁺ repletion both plasma [K⁺] and skeletal muscle [K⁺]_i had returned to control levels. Cardiac muscle on the other hand showed a significant increase in [K⁺]_i above control. It has been suggested that the heart is protected during K⁺ depletion by some modification to the sarcolemmal Na⁺ pump. The Na⁺ pump density was estimated in membrane preparations from normal and K⁺ depleted rabbits by the specific binding of ³H-ouabain. ³H-ouabain binding in cardiac muscle preparations was increased significantly after 2 weeks of K⁺ depletion, and remained so for a further 2 weeks of depletion. There was no significant change in ³H-ouabain binding to skeletal muscle preparations after 4 weeks of K⁺ depletion. After 1 week of subsequent K⁺ repletion ³H-ouabain binding was still increased in cardiac muscle preparations, corresponding to the overshoot in cardiac muscle [K⁺]_i. These results support the hypothesis that cardiac muscle is protected against K⁺ loss during chronic K⁺ depletion by an adaptive increase in Na⁺ pump density.