Elsevier

Hearing Research

Volume 376, May 2019, Pages 11-21
Hearing Research

Review Article
Tonotopy in calcium homeostasis and vulnerability of cochlear hair cells

https://doi.org/10.1016/j.heares.2018.11.002Get rights and content
Under a Creative Commons license
open access

Highlights

  • Environmental hearing deficits correlated with loss of basal outer hair cells (OHCs).

  • Vulnerability reflects differences in Ca2+ balance among cochlear hair cells.

  • Calcium homeostasis modeled using available experimental parameters.

  • OHCs have two distinct micro-compartments, hair bundle and soma, for Ca2+ handling.

  • Basal OHCs most susceptible due to larger transducer currents and smaller size.

Abstract

Ototoxicity, noise overstimulation, or aging, can all produce hearing loss with similar properties, in which outer hair cells (OHCs), principally those at the high-frequency base of the cochlea, are preferentially affected. We suggest that the differential vulnerability may partly arise from differences in Ca2+ balance among cochlear locations. Homeostasis is determined by three factors: Ca2+ influx mainly via mechanotransducer (MET) channels; buffering by calcium-binding proteins and organelles like mitochondria; and extrusion by the plasma membrane CaATPase pump. We review quantification of these parameters and use our experimentally-determined values to model changes in cytoplasmic and mitochondrial Ca2+ during Ca2+ influx through the MET channels. We suggest that, in OHCs, there are two distinct micro-compartments for Ca2+ handling, one in the hair bundle and the other in the cell soma. One conclusion of the modeling is that there is a tonotopic gradient in the ability of OHCs to handle the Ca2+ load, which correlates with their vulnerability to environmental challenges. High-frequency basal OHCs are the most susceptible because they have much larger MET currents and have smaller dimensions than low-frequency apical OHCs.

Keywords

Calcium
Hearing loss
Mechanotransducer channels
Mitochondria
PMCA2 calcium pump
Stereociliary bundle

Cited by (0)