Stimulation by high external potassium of the sodium efflux in barnacle muscle fibers

Abstract

Single barnacle muscle fibers fromBalanus nubilus were used to study the effect of elevated external potassium concentration, [K] _o , on Na efflux, membrane potential, and cyclic nucleotide levels. Elevation of [K] _o causes a prompt, transient stimulation of the ouabain-insensitive Na efflux. The minimal effective concentrations is ∼20mm. The membrane potential of ouabain-treated fibers bathed in 10mm Ca²⁺ artificial seawater (ASW) or in Ca²⁺-free ASW decreases approximately linearly with increasing logarithm of [K] _o . The slope of the plot is slightly steeper for fibers bathed in Ca²⁺-free ASW. The magnitude of the stimulatory response of the ouabain-insensitive Na efflux to 100mmK _o depends on the external Na⁺ and Ca²⁺ concentrations, as well as on external pH, but is independent of external Mg²⁺ concentration. External application of 10⁻⁴ m verapamil virtually abolishes the response of the Na efflux to subsequent K-depolarization. Stabilization of myoplasmic-free Ca²⁺ by injection of 250mm EGTA before exposure of the fiber to 100mm K _o leads to ∼60% reduction in the magnitude of the stimulation. Pre-injection of a pure inhibitor of cyclic AMP-dependent protein kinase reduces the response of the Na efflux to 100mm K _o by ∼50%. Increasing intracellular ATP, by injection of 0.5m ATP-Na₂ before elevation of [K] _o , fails to prolong the duration of the stimulation of the Na efflux. Exposure of ouabain-treated, cannulated fibers to 100mm K _o for time periods ranging from 30 sec to 10 min causes a small (∼60%), but significant, increase in the intracellular content of cyclic AMP with little change in the cyclic GMP level. These results are compatible with the view that the stimulatory response of the ouabain-insensitive Na efflux to high K _o is largely due to a fall in myoplasmicpCa resulting from activation of voltage-dependent Ca²⁺ channels and that an accompanying rise in internal cAMP accounts for a portion of this response.