Cable properties of smooth muscle

Abstract

The cable properties of smooth muscle of guinea-pig taenia coli were studied by intracellular recording of electrotonic potentials produced by square current pulses and alternating current applied with external electrodes. An electrical model of the smooth muscle was constructed to test how the junctional resistance between cells affected the cable properties. The model consisted of a series of short cables (representing cells) which were connected by junctional resistances. From the experiments on the living tissue and on the model, the electrotonic potential in smooth muscle can be expressed by the oridinary cable equation used for nerve and skeletal muscle fibers, even though the junctional resistance is of the same order of magnitude as that of the myoplasmic resistance. The cable equation was used to analyze the membrane parameters from the electrotonic potential, from the time course of the foot of the spike and from the condition velocity. The analysis indicates that the smooth muscle has a membrane capacity of 2-3 [mu]F/cm^ and a membrane resistance of 30-50 k [OMEGA] cm2.