The effect of cations on the electrical properties of the smooth muscle cells of the guinea‐pig vas deferens

Abstract

A study has been made of the effects of Na+ and Ca2+ on the responses generated by intracellular current pulses in smooth muscle cells of the guinea pig vas deferens and upon the propagated action potential. Reduction of the extracellular Na+ activity (aNa) to less than 30 m[image] did not alter the characteristics of the spike-like response to intracellular current pulses (the active response) or of the propagated action potential. Reduction of the extracellular Ca2+ activity (aca) to 0.1 m[image] decreased the resting input resistance of the cells but increased the input resistance during the crest of the active response. Reduction of Ca2+ decreased the overshoot of the action potential by 22 mV per tenfold change in Ca2+ and the resting potential by 25 mV per tenfold change. Reduction of the extracellular Ca2+, keeping the product aCa/a2Na constant, did not change the resting potential, but decreased the action potential overshoot by 20 mV per tenfold change. It is suggested that part of the current responsible for the rising phase of the action potential is carried by Ca2+.