Literature DB >> 31954526

Diverse Mechanisms of Sound Frequency Discrimination in the Vertebrate Cochlea.

Robert Fettiplace1.   

Abstract

Discrimination of different sound frequencies is pivotal to recognizing and localizing friend and foe. Here, I review the various hair cell-tuning mechanisms used among vertebrates. Electrical resonance, filtering of the receptor potential by voltage-dependent ion channels, is ubiquitous in all non-mammals, but has an upper limit of ~1 kHz. The frequency range is extended by mechanical resonance of the hair bundles in frogs and lizards, but may need active hair-bundle motion to achieve sharp tuning up to 5 kHz. Tuning in mammals uses somatic motility of outer hair cells, underpinned by the membrane protein prestin, to expand the frequency range. The bird cochlea may also use prestin at high frequencies, but hair cells <1 kHz show electrical resonance.
Copyright © 2019 The Author. Published by Elsevier Ltd.. All rights reserved.

Entities:  

Keywords:  basilar papilla; electrical resonance; hair bundle; hair cells; prestin

Year:  2020        PMID: 31954526      PMCID: PMC7015066          DOI: 10.1016/j.tins.2019.12.003

Source DB:  PubMed          Journal:  Trends Neurosci        ISSN: 0166-2236            Impact factor:   13.837


  102 in total

1.  Consequences of the stoichiometry of Slo1 alpha and auxiliary beta subunits on functional properties of large-conductance Ca2+-activated K+ channels.

Authors:  Ying-Wei Wang; Jiu Ping Ding; Xiao-Ming Xia; Christopher J Lingle
Journal:  J Neurosci       Date:  2002-03-01       Impact factor: 6.167

2.  Functional correlates of characteristic frequency in single cochlear nerve fibers of the Mongolian gerbil.

Authors:  K K Ohlemiller; S M Echteler
Journal:  J Comp Physiol A       Date:  1990-08       Impact factor: 1.836

3.  An intrinsic frequency limit to the cochlear amplifier.

Authors:  J E Gale; J F Ashmore
Journal:  Nature       Date:  1997-09-04       Impact factor: 49.962

4.  An electrical resonance in hair cells of the amphibian papilla of the frog Rana temporaria.

Authors:  S Pitchford; J F Ashmore
Journal:  Hear Res       Date:  1987       Impact factor: 3.208

5.  Influence of temperature on tuning of primary-like units in the guinea pig cochlear nucleus.

Authors:  A W Gummer; R Klinke
Journal:  Hear Res       Date:  1983-12       Impact factor: 3.208

6.  β4-subunit increases Slo responsiveness to physiological Ca2+ concentrations and together with β1 reduces surface expression of Slo in hair cells.

Authors:  Jun-Ping Bai; Alexei Surguchev; Dhasakumar Navaratnam
Journal:  Am J Physiol Cell Physiol       Date:  2010-12-22       Impact factor: 4.249

7.  Frequency tuning and spontaneous activity in the auditory nerve and cochlear nucleus magnocellularis of the barn owl Tyto alba.

Authors:  C Köppl
Journal:  J Neurophysiol       Date:  1997-01       Impact factor: 2.714

8.  Auditory nerve fibre responses to salicylate revisited.

Authors:  Marcus Müller; Rainer Klinke; Wolfgang Arnold; Elmar Oestreicher
Journal:  Hear Res       Date:  2003-09       Impact factor: 3.208

9.  The Frequency Response of Outer Hair Cell Voltage-Dependent Motility Is Limited by Kinetics of Prestin.

Authors:  Joseph Santos-Sacchi; Winston Tan
Journal:  J Neurosci       Date:  2018-05-21       Impact factor: 6.167

10.  The frequency limit of outer hair cell motility measured in vivo.

Authors:  Anna Vavakou; Nigel P Cooper; Marcel van der Heijden
Journal:  Elife       Date:  2019-09-24       Impact factor: 8.140
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  12 in total

1.  Complex dynamics of hair bundle of auditory nervous system (I): spontaneous oscillations and two cases of steady states.

Authors:  Ben Cao; Huaguang Gu; Kaihua Ma
Journal:  Cogn Neurodyn       Date:  2021-11-17       Impact factor: 3.473

2.  Complex dynamics of hair bundle of auditory nervous system (II): forced oscillations related to two cases of steady state.

Authors:  Ben Cao; Huaguang Gu; Runxia Wang
Journal:  Cogn Neurodyn       Date:  2021-11-15       Impact factor: 3.473

3.  Unloading outer hair cell bundles in vivo does not yield evidence of spontaneous oscillations in the mouse cochlea.

Authors:  Patricia M Quiñones; Sebastiaan W F Meenderink; Brian E Applegate; John S Oghalai
Journal:  Hear Res       Date:  2022-03-01       Impact factor: 3.672

4.  Collapsin Response Mediator Protein 1 (CRMP1) Is Required for High-Frequency Hearing.

Authors:  Jinan Li; Chang Liu; Bo Zhao
Journal:  Am J Pathol       Date:  2022-02-15       Impact factor: 5.770

5.  Diversity of Receptive Fields and Sideband Inhibition with Complex Thalamocortical and Intracortical Origin in L2/3 of Mouse Primary Auditory Cortex.

Authors:  Ji Liu; Patrick O Kanold
Journal:  J Neurosci       Date:  2021-02-16       Impact factor: 6.709

6.  The conformational cycle of prestin underlies outer-hair cell electromotility.

Authors:  Navid Bavi; Michael David Clark; Gustavo F Contreras; Rong Shen; Bharat G Reddy; Wieslawa Milewski; Eduardo Perozo
Journal:  Nature       Date:  2021-10-25       Impact factor: 69.504

7.  An In Vitro Study on Prestin Analog Gene in the Bullfrog Hearing Organs.

Authors:  Zhongying Wang; Minfei Qian; Qixuan Wang; Huihui Liu; Hao Wu; Zhiwu Huang
Journal:  Neural Plast       Date:  2020-07-02       Impact factor: 3.599

8.  Physiopathological Relevance of D-Serine in the Mammalian Cochlea.

Authors:  Jing Wang; Nicolas Serratrice; Cindy J Lee; Florence François; Jonathan V Sweedler; Jean-Luc Puel; Jean-Pierre Mothet; Jérôme Ruel
Journal:  Front Cell Neurosci       Date:  2021-12-17       Impact factor: 5.505

9.  Atypical tuning and amplification mechanisms in gecko auditory hair cells.

Authors:  Maryline Beurg; Tony Gamble; Aaron H Griffing; Robert Fettiplace
Journal:  Proc Natl Acad Sci U S A       Date:  2022-03-15       Impact factor: 11.205

Review 10.  Vestibular Deficits in Deafness: Clinical Presentation, Animal Modeling, and Treatment Solutions.

Authors:  Audrey Maudoux; Sandrine Vitry; Aziz El-Amraoui
Journal:  Front Neurol       Date:  2022-04-04       Impact factor: 4.003
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