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Loss of the Cochlear Amplifier Prestin Reduces Temporal Processing Efficacy in the Central Auditory System

Active mechanical amplification of sound occurs in cochlear outer hair cells (OHCs) that change their length with oscillations of their membrane potential. Such length changes are the proposed cellular source of the cochlear amplifier, and prestin is the motor protein responsible for OHC electromoti...

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Autores principales: Walton, Joseph P., Dziorny, Adam C., Vasilyeva, Olga N., Luebke, Anne E.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2018
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6160587/
https://www.ncbi.nlm.nih.gov/pubmed/30297983
http://dx.doi.org/10.3389/fncel.2018.00291
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author Walton, Joseph P.
Dziorny, Adam C.
Vasilyeva, Olga N.
Luebke, Anne E.
author_facet Walton, Joseph P.
Dziorny, Adam C.
Vasilyeva, Olga N.
Luebke, Anne E.
author_sort Walton, Joseph P.
collection PubMed
description Active mechanical amplification of sound occurs in cochlear outer hair cells (OHCs) that change their length with oscillations of their membrane potential. Such length changes are the proposed cellular source of the cochlear amplifier, and prestin is the motor protein responsible for OHC electromotility. Previous findings have shown that mice lacking prestin displayed a loss of OHC electromotility, subsequent loss of distortion-product otoacoustic emissions, and a 40–60 dB increase in hearing thresholds. In this study we were interested in studying the functional consequences of the complete loss of cochlear amplification on neural coding of frequency selectivity, tuning, and temporal processing in the auditory midbrain. We recorded near-field auditory evoked potentials and multi-unit activity from the inferior colliculus (IC) of prestin (−/−) null and prestin (+/+) wild-type control mice and determined frequency response areas (FRAs), tuning sharpness, and gap detection to tone bursts and silent gaps embedded in broadband noise. We were interested in determining if the moderate to severe sensorineural hearing loss associated with the loss of motor protein prestin would also impair auditory midbrain temporal-processing measures, or if compensatory mechanisms within the brainstem could compensate for the loss of prestin. In prestin knockout mice we observed that there are severe impairments in midbrain tuning, thresholds, excitatory drive, and gap detection suggesting that brainstem and midbrain processing could not overcome the auditory processing deficits afforded by the loss of OHC electromotility mediated by the prestin protein.
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spelling pubmed-61605872018-10-08 Loss of the Cochlear Amplifier Prestin Reduces Temporal Processing Efficacy in the Central Auditory System Walton, Joseph P. Dziorny, Adam C. Vasilyeva, Olga N. Luebke, Anne E. Front Cell Neurosci Neuroscience Active mechanical amplification of sound occurs in cochlear outer hair cells (OHCs) that change their length with oscillations of their membrane potential. Such length changes are the proposed cellular source of the cochlear amplifier, and prestin is the motor protein responsible for OHC electromotility. Previous findings have shown that mice lacking prestin displayed a loss of OHC electromotility, subsequent loss of distortion-product otoacoustic emissions, and a 40–60 dB increase in hearing thresholds. In this study we were interested in studying the functional consequences of the complete loss of cochlear amplification on neural coding of frequency selectivity, tuning, and temporal processing in the auditory midbrain. We recorded near-field auditory evoked potentials and multi-unit activity from the inferior colliculus (IC) of prestin (−/−) null and prestin (+/+) wild-type control mice and determined frequency response areas (FRAs), tuning sharpness, and gap detection to tone bursts and silent gaps embedded in broadband noise. We were interested in determining if the moderate to severe sensorineural hearing loss associated with the loss of motor protein prestin would also impair auditory midbrain temporal-processing measures, or if compensatory mechanisms within the brainstem could compensate for the loss of prestin. In prestin knockout mice we observed that there are severe impairments in midbrain tuning, thresholds, excitatory drive, and gap detection suggesting that brainstem and midbrain processing could not overcome the auditory processing deficits afforded by the loss of OHC electromotility mediated by the prestin protein. Frontiers Media S.A. 2018-09-21 /pmc/articles/PMC6160587/ /pubmed/30297983 http://dx.doi.org/10.3389/fncel.2018.00291 Text en Copyright © 2018 Walton, Dziorny, Vasilyeva and Luebke. http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Neuroscience
Walton, Joseph P.
Dziorny, Adam C.
Vasilyeva, Olga N.
Luebke, Anne E.
Loss of the Cochlear Amplifier Prestin Reduces Temporal Processing Efficacy in the Central Auditory System
title Loss of the Cochlear Amplifier Prestin Reduces Temporal Processing Efficacy in the Central Auditory System
title_full Loss of the Cochlear Amplifier Prestin Reduces Temporal Processing Efficacy in the Central Auditory System
title_fullStr Loss of the Cochlear Amplifier Prestin Reduces Temporal Processing Efficacy in the Central Auditory System
title_full_unstemmed Loss of the Cochlear Amplifier Prestin Reduces Temporal Processing Efficacy in the Central Auditory System
title_short Loss of the Cochlear Amplifier Prestin Reduces Temporal Processing Efficacy in the Central Auditory System
title_sort loss of the cochlear amplifier prestin reduces temporal processing efficacy in the central auditory system
topic Neuroscience
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6160587/
https://www.ncbi.nlm.nih.gov/pubmed/30297983
http://dx.doi.org/10.3389/fncel.2018.00291
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