Effects of Efferent Activity on Hair Bundle Mechanics

Effects of Efferent Activity on Hair Bundle Mechanics

Hair cells in both the auditory and vestibular systems receive efferent innervation. A number of prior studies have indicated that efferent regulation serves to diminish the overall sensitivity of the auditory system. The efferent pathway is believed to affect the sensitivity and frequency selectivi...

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Bibliographic Details
Published in:The Journal of neuroscience Vol. 40; no. 12; pp. 2390 - 2402
Main Authors: Lin, Chia-Hsi Jessica, Bozovic, Dolores
Format: Journal Article
Language:English
Published: United States Society for Neuroscience 18-03-2020
Subjects:
Actuation
Auditory system
Brain mapping
Bundling
Desensitization
Frequency dependence
Hair
Hair cells
Innervation
Mechanical analysis
Mechanical stimuli
Membrane potential
Oscillations
Receptive field
Selectivity
Sensitivity
Stimulation
Vestibular system
spontaneous oscillations
frog
efferent stimulation
hair bundle mechanics
sacculus
hair cell
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Summary:Hair cells in both the auditory and vestibular systems receive efferent innervation. A number of prior studies have indicated that efferent regulation serves to diminish the overall sensitivity of the auditory system. The efferent pathway is believed to affect the sensitivity and frequency selectivity of the hair cell by modulating its membrane potential. However, its effect on the mechanical response of the hair cell has not been established. We explored how stimulation of the efferent neurons affects the mechanical responsiveness of an individual hair bundle. We tested this effect on preparations of hair cells in the sacculi of American bullfrogs of both genders. Efferent stimulation routinely resulted in an immediate increase of the frequency of hair bundle spontaneous oscillations for the duration of the stimulus. Enlarging the stimulus amplitude and pulse length, or conversely, decreasing the interpulse interval led to oscillation suppression. Additionally, we tested the effects of efference on the hair bundle response to mechanical stimulation. The receptive field maps of hair cells undergoing efferent actuation demonstrated an overall desensitization with respect to those of unstimulated cells. The efferent system is an important aide for the performance of the auditory system. It has been seen to contribute to sound detection and localization, ototoxicity prevention, and speech comprehension. Although measurements have demonstrated that efference suppresses basilar membrane movement, there is still much unknown about how efferent activity affects hearing mechanics. Here, we explore the mechanical basis for the efferent system's capabilities at the level of the hair bundle. We present optical recordings, receptive field maps, and sensitivity curves that show a hair bundle is desensitized by efferent stimulation. This supports the hypothesis that efferent regulation may be a biological control parameter for tuning the hair bundle's mechanical sensitivity.
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Author contributions: C.-H.J.L. and D.B. designed research; C.-H.J.L. performed research; C.-H.J.L. and D.B. analyzed data; C.-H.J.L. and D.B. wrote the first draft of the paper; C.-H.J.L. and D.B. edited the paper; C.-H.J.L. and D.B. wrote the paper.
ISSN:0270-6474
1529-2401
DOI:10.1523/JNEUROSCI.1312-19.2020