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The Journal of Neuroscience, February 15, 1998, 18(4):1449-1464

The Differential Expression of Low-Threshold Sustained Potassium Current Contributes to the Distinct Firing Patterns in Embryonic Central Vestibular Neurons

Georgi Gamkrelidze, Christian Giaume and Kenna D. Peusner

Department of Anatomy and Cell Biology, and Neuroscience Program, George Washington University Medical Center, Washington, DC 20037

The principal cells of the chick tangential nucleus are second-order sensory neurons that participate in the three-neuron vestibulo-ocular and vestibulocollic reflexes. In postnatal animals, second-order vestibular neurons fire repetitively on depolarization. Previous studies have shown that, although this is an important feature for normal reflex function, it is only acquired gradually during embryonic development. Whereas at 13 embryonic days (E13) the principal cells accommodate after firing a single spike, at E16 a few principal cells repetitively can fire multiple action potentials on depolarization. Finally, in the hatchling, the vast majority of principal cells is capable of nonaccommodating firing on depolarization. As a first step in understanding the mechanisms underlying developmental change in excitability of these second-order vestibular neurons, we analyzed the outward potassium currents and their role in accommodation, using brainstem slices at E16. The principal cells exhibited transient and sustained potassium currents, with both of these containing calcium-dependent components. Further, both high- and low-threshold sustained potassium currents have been distinguished. The low-threshold dendrotoxin-sensitive sustained potassium current (I_DS) is associated with principal cells that accommodate and is not expressed in those that fire repetitively. Finally, blocking of I_DS transforms accommodating cells into neurons capable of firing trains of action potentials on depolarization. These findings indicate that suppression of I_DS during development is sufficient to transform accommodating principal cells into nonaccommodating firing neurons and suggests that developmental regulation of this current is necessary for the establishment of normal vestibular function.

Key words: dendrotoxin; potassium current; central vestibular neurons; chick embryo; excitability; firing pattern

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Copyright © 1998 Society for Neuroscience  0270-6474/98/1841449-16$05.00/0

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