Potassium currents and conductance. Comparison between motor and sensory myelinated fibers

Biophysical Journal
Y PaltiR Stämpfli

Abstract

The potassium conductance system of sensory and motor fibers from the frog Rana esculenta were studied and compared by means of the voltage clamp. The potassium ion accumulation was first estimated from the currents and reversal potentials within the framework of both a three-compartment model and diffusion-in-an-unstirred-layer model. The potassium conductance parameters were then computed using the measured currents and corrected ionic driving forces. It was found that the potassium accumulation is faster and more pronounced in sensory fibers, the voltage dependency of the potassium conductance is steeper in sensory fibers, the maximal potassium conductance, corrected for accumulation, is approximately 1.1 S/cm2 in sensory and 0.55 S/cm2 in motor fibers, and that the conductance time constants, tau n, are smaller in sensory than in motor fibers. These differences, which increase progressively with depolarization, are not detectable for depolarization of 50 mV or smaller. The interpretation of these findings in terms of different types of potassium channels as well as their implications with regard to the differences between the excitability phenomena in motor and sensory fibers are discussed.

Citations

Jan 1, 1983·Progress in Biophysics and Molecular Biology·J M Dubois
Jan 1, 1989·Progress in Neurobiology·H MeiriY Rosenthal
Jun 1, 1995·Electroencephalography and Clinical Neurophysiology·P MontagnaR Riva
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