Potassium channel-dependent changes in the volume of developing mouse Schwann cells

Abstract

Abstract Physiological roles of voltage-gated K + channels in developing mouse Schwann cells were investigated using whole-cell variation of the patch-clamp technique. In neonatal myelin-associated Schwann cells, local cytoplasmic swellings were induced when membrane potential (MP) was kept more negative than zero-current potential (membrane hyperpolarization) and they decreased in sizes when MP was kept positive. A lack of changes of cytoplasmic volume Schwann cells of 17- to 18-day-old embryos or in neonatal myelin-associated cells in a solution containing Ba 2+ suggested that activation of Ba 2+ -sensitive K + channels caused cytoplasmic volume changes. Significant increase in magnitudes of Ba 2+ -sensitive K + currents in neonatal myelin-associated cells after membrane hyperpolarization suggested that these K + channels locate in adaxonal Schwann cell membrane and probably determine the sites of Schmidt-Lanterman incisures.