Developmental expression of a voltage-dependent potassium channel (Kv3.1) in auditory neurons without cochlear input

Abstract

Kv3.1, a voltage‐dependent potassium channel, has two forms, ‐a and ‐b, which differ in expression during development and at the onset of function in the auditory system. To determine whether cochlear nerve input could affect the expression of these two forms, cultures of the developing cochlear nucleus were explanted in the absence of the cochlear nerve at the beginning of cell migration (Hamburger‐Hamilton stage 28–30), while neuroblasts continued to migrate onto the culture substrate. After 8, 15, and 22 days in vitro (three survival groups), cultures were immunostained with antibodies recognizing either both forms of Kv3.1 or only the ‐b form. Only young and newly migrated nerve cells were sampled. In the three survival groups, all nerve cells expressed Kv3.1, among which only 50% or less expressed the ‐b form. Some of the more differentiated multipolar cells expressed the ‐b form, but most were labeled with the antibody that recognizes both forms. Thus, in the absence of peripheral input, both forms of Kv3.1 appear at stages very early in development, although not all cells necessarily coexpress both forms. These results agree with other observations in the chick embryo in situ. They are consistent with previous work implicating Kv3.1 in cell migration during early development. J. Neurosci. Res. 65:121–128, 2001. © 2001 Wiley‐Liss, Inc.