Toxin‐Induced K+ Efflux through the Na+ Channel of Neuroblastoma Cells

Abstract

Neurotoxins which modify the gating system of the Na⁺ channel in neuroblastoma cells and increase the initial rate of ²²Na⁺. influx through this channel also give rise to the efflux of ⁸⁶⁺ and ⁴²K⁺. These effluxes are inhibited by tetrodotoxin and are dependent on the presence in the extracellular medium of cations permeable to the Na⁺ channel. These stimulated effluxes are not due to membrane depolarization or increases in the intracellular content of Na⁺ and Ca²⁺ which occur subsequent to the action of neurotoxins. The relationships of ²²Na⁺ influx and ⁴²⁺ (or ⁸⁶Rb⁺) effluxes to both the concentration of neurotoxins and the concentration of external permeant cations strongly suggest that the open form of the Na⁺ channel stabilized by neurotoxins permits an efflux of K⁺ ions. Our results indicate that for the efflux of each K⁺ ion there is a corresponding influx of two Na⁺ ions into the Na⁺ channel.