Differential Expression of Three Distinct Potassium Currents in the Ventral Cochlear Nucleus

Abstract

In the ventral cochlear nucleus (VCN), neurons transform information from auditory nerve fibers into a set of parallel ascending pathways, each emphasizing different aspects of the acoustic environment. Previous studies have shown that VCN neurons differ in their intrinsic electrical properties, including the K⁺ currents they express. In this study, we examine these K⁺ currents in more detail using whole cell voltage-clamp techniques on isolated VCN cells from adult guinea pigs at 22°C. Our results show a differential expression of three distinct K⁺ currents. Whereas some VCN cells express only a high-threshold delayed-rectifier-like current ( I_HT), others express I_HT in combination with a fast inactivating current ( I_A) and/or a slow-inactivating low-threshold current ( I_LT). I_HT, I_LT, and I_A, were partially blocked by 1 mM 4-aminopyridine. In contrast, only I_LT was blocked by 10–100 nM dendrotoxin-I. A surprising finding was the wide range of levels of I_LT, suggesting I_LT is expressed as a continuum across cell types rather than modally in a particular cell type. I_A, on the other hand, appears to be expressed only in cells that show little or no I_LT, the Type I cells. Boltzmann analysis shows I_HT activates with 164 ± 12 (SE) nS peak conductance, -14.3 ± 0.7 mV half-activation, and 7.0 ± 0.5 mV slope factor. Similar analysis shows I_LT activates with 171 ± 22 nS peak conductance, -47.4 ± 1.0 mV half-activation, and 5.8 ± 0.3 mV slope factor.