Macrocurrents of voltage gated Na+ and K+ channels from the crayfish stretch receptor neuronal soma.

Abstract

Currents from the slowly adapting stretch receptor neuron of the crayfish (Pacifastacus leniusculus) were studied in a cell attached configuration using patch pipettes with an opening diameter of 2-10 microm. The neuronal membrane was enzymatically freed from the glial layer. The voltage gated Na+ and K+ channels seemed to be more concentrated in the lower part of soma close to the axon hillock. The Na+ and K+ currents could be analysed by fitting the currents to a fourth-order exponential function for Na+ current and a second-order exponential function for the K+ current. The macropatch recordings of enzymatically treated neurons are superior to two electrode voltage clamp recordings when analyzing voltage gated Na+ and K+ currents.