Reduced climbing and increased slipping adaptation in cochlear hair cells of mice with Myo7a mutations

CJ Kros; W Marcotti; SM van Netten; TJ Self; RT Libby; SDM Brown; GP Richardson; KP Steel

doi:10.1038/nn784

Reduced climbing and increased slipping adaptation in cochlear hair cells of mice with Myo7a mutations

CJ Kros^*, W Marcotti, SM van Netten, TJ Self, RT Libby, SDM Brown, GP Richardson, KP Steel

^*Corresponding author for this work

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Abstract

Mutations in Myo7a cause hereditary deafness in mice and humans. We describe the effects of two mutations, Myo7a(6J) and Myo7a(4626SB). on mechano-electrical transduction in cochlear hair cells. Both mutations result in two major functional abnormalities that would interfere with sound transduction. The hair bundles need to be displaced beyond their physiological operating range for mechanotransducer channels to open. Transducer currents also adapt more strongly than normal to excitatory stimuli. We conclude that myosin VIIA participates in anchoring and holding membrane-bound elements to the actin core of the stereocilium. Myosin VIIA is therefore required for the normal gating of transducer channels.

Original language	English
Pages (from-to)	41-47
Number of pages	7
Journal	Nature neuroscience
Volume	5
Issue number	1
DOIs	https://doi.org/10.1038/nn784
Publication status	Published - Jan-2002

Keywords

MYOSIN-VIIA GENE
MECHANOELECTRICAL TRANSDUCTION
AMINOGLYCOSIDE ACCUMULATION
BULLFROGS SACCULUS
MOUSE COCHLEA
DEAFNESS
CURRENTS
SHAKER-1
CHANNELS
PROTEIN

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Reduced climbing and increased slipping adaptation in cochlear hair cells of mice
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title = "Reduced climbing and increased slipping adaptation in cochlear hair cells of mice with Myo7a mutations",

abstract = "Mutations in Myo7a cause hereditary deafness in mice and humans. We describe the effects of two mutations, Myo7a(6J) and Myo7a(4626SB). on mechano-electrical transduction in cochlear hair cells. Both mutations result in two major functional abnormalities that would interfere with sound transduction. The hair bundles need to be displaced beyond their physiological operating range for mechanotransducer channels to open. Transducer currents also adapt more strongly than normal to excitatory stimuli. We conclude that myosin VIIA participates in anchoring and holding membrane-bound elements to the actin core of the stereocilium. Myosin VIIA is therefore required for the normal gating of transducer channels.",

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author = "CJ Kros and W Marcotti and {van Netten}, SM and TJ Self and RT Libby and SDM Brown and GP Richardson and KP Steel",

year = "2002",

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doi = "10.1038/nn784",

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T1 - Reduced climbing and increased slipping adaptation in cochlear hair cells of mice with Myo7a mutations

AU - Kros, CJ

AU - Marcotti, W

AU - van Netten, SM

AU - Self, TJ

AU - Libby, RT

AU - Brown, SDM

AU - Richardson, GP

AU - Steel, KP

PY - 2002/1

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N2 - Mutations in Myo7a cause hereditary deafness in mice and humans. We describe the effects of two mutations, Myo7a(6J) and Myo7a(4626SB). on mechano-electrical transduction in cochlear hair cells. Both mutations result in two major functional abnormalities that would interfere with sound transduction. The hair bundles need to be displaced beyond their physiological operating range for mechanotransducer channels to open. Transducer currents also adapt more strongly than normal to excitatory stimuli. We conclude that myosin VIIA participates in anchoring and holding membrane-bound elements to the actin core of the stereocilium. Myosin VIIA is therefore required for the normal gating of transducer channels.

AB - Mutations in Myo7a cause hereditary deafness in mice and humans. We describe the effects of two mutations, Myo7a(6J) and Myo7a(4626SB). on mechano-electrical transduction in cochlear hair cells. Both mutations result in two major functional abnormalities that would interfere with sound transduction. The hair bundles need to be displaced beyond their physiological operating range for mechanotransducer channels to open. Transducer currents also adapt more strongly than normal to excitatory stimuli. We conclude that myosin VIIA participates in anchoring and holding membrane-bound elements to the actin core of the stereocilium. Myosin VIIA is therefore required for the normal gating of transducer channels.

KW - MYOSIN-VIIA GENE

KW - MECHANOELECTRICAL TRANSDUCTION

KW - AMINOGLYCOSIDE ACCUMULATION

KW - BULLFROGS SACCULUS

KW - MOUSE COCHLEA

KW - DEAFNESS

KW - CURRENTS

KW - SHAKER-1

KW - CHANNELS

KW - PROTEIN

U2 - 10.1038/nn784

DO - 10.1038/nn784

M3 - Article

SN - 1097-6256

VL - 5

SP - 41

EP - 47

JO - Nature neuroscience

JF - Nature neuroscience

IS - 1

ER -

Reduced climbing and increased slipping adaptation in cochlear hair cells of mice with Myo7a mutations

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Keywords

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