MECHANISMS OF HAIR CELL TUNING

1 March 1999

journal article
review article
Published by Annual Reviews in Annual Review of Physiology

Vol. 61 (1), 809-834
https://doi.org/10.1146/annurev.physiol.61.1.809

Abstract

▪ Abstract Mechanosensory hair cells of the vertebrate inner ear contribute to acoustic tuning through feedback processes involving voltage-gated channels in the basolateral membrane and mechanotransduction channels in the apical hair bundle. The specific number and kinetics of calcium-activated (BK) potassium channels determine the resonant frequency of electrically tuned hair cells. Kinetic variation among BK channels may arise through alternative splicing of slo gene mRNA and combination with modulatory β subunits. The number of transduction channels and their rate of adaptation rise with hair cell response frequency along the cochlea's tonotopic axis. Calcium-dependent feedback onto transduction channels may underlie active hair bundle mechanics. The relative contributions of electrical and mechanical feedback to active tuning of hair cells may vary as a function of sound frequency.

Keywords

This publication has 142 references indexed in Scilit:

Identification of Ca ²⁺ –activated K ⁺ channel splice variants and their distribution in the turtle cochlea
Proceedings Of The Royal Society B-Biological Sciences, 1998
cSloencodes calcium–activated potassium channels in the chick's cochlea
Proceedings Of The Royal Society B-Biological Sciences, 1997
Phosphate Analogs Block Adaptation in Hair Cells by Inhibiting Adaptation-Motor Force Production
Neuron, 1996
A developmental model for generating frequency maps in the reptilian and avian cochleas
Biophysical Journal, 1996
The calcium-activated potassium channels of turtle hair cells.
The Journal of general physiology, 1995
Calcium sensitivity of BK-type KCa channels determined by a separable domain
Neuron, 1994
Calcium-activated potassium channels expressed from cloned complementary DNAs
Neuron, 1992
Voltage- and ion-dependent conductances in solitary vertebrate hair cells
Nature, 1983
Actin filaments, stereocilia, and hair cells of the bird cochlea. I. Length, number, width, and distribution of stereocilia of each hair cell are related to the position of the hair cell on the cochlea.
The Journal of cell biology, 1983
Structure of the chicken's inner ear: SEM and TEM study
Journal of Anatomy, 1978

Cited by 343 articles