Evidence for two transient sodium currents in the frog node of Ranvier

Abstract

Na current (INa) was monitored in isolated voltage-clamped frog nodes of Ranvier in order to analyse the pharmacological and kinetic properties of fast and slow phases of inactivation. Niflumic acid (0.1-10 mM) and tetrodotoxin (0.3-30 nM) did not alter fast and slow inactivation time courses but preferentially reduced the amplitude of the fast phase of inactivation. The block of both phases of inactivation by niflumic acid and tetrodotoxin was well described if one assumed that more than one molecule of drug reacted with one channel. Fast and slow currents, corresponding respectively to fast and slow phases of inactivation, reversed at different potentials, had different threshold voltages of activation and the slopes of their steady-state inactivation curves were different. The recovery from inactivation of the compound INa could be described by the sum of two exponentials (plus a delay) corresponding respectively to fast and slow currents. When calculated from INa recorded without and with niflumic acid or tetrodotoxin, the slow current activated about three times more slowly than the fast current. Large prehyperpolarizations delayed both the activation and the inactivation of the fast current but only the activation of the slow current. Lowering the temperature decreased the fast current but increased the slow current. We conclude that the inactivatable Na current of the nodal membrane is made up of two components (INa,f and INa,s) corresponding to two different and interconvertible forms of the Na channel.