耳蜗外毛细胞水平顶连接体介导成熟的静纤毛束力学。

Cochlear outer hair cell horizontal top connectors mediate mature stereocilia bundle mechanics.

机构信息

Section on Auditory Mechanics, National Institute on Deafness and Other Communication Disorders, National Institutes of Health, Bethesda, MD 20892, USA.

Unité de Génétique et Physiologie de l'Audition, Institut Pasteur, 75015 Paris, France.

出版信息

Sci Adv. 2019 Feb 20;5(2):eaat9934. doi: 10.1126/sciadv.aat9934. eCollection 2019 Feb.

DOI:10.1126/sciadv.aat9934

PMID:30801007

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6382404/

Abstract

Outer hair cell (OHC) stereocilia bundle deflection opens mechanoelectrical transduction channels at the tips of the stereocilia from the middle and short rows, while bundle cohesion is maintained owing to the presence of horizontal top connectors. Here, we used a quantitative noncontact atomic force microscopy method to investigate stereocilia bundle stiffness and damping, when stimulated at acoustic frequencies and nanometer distances from the bundle. Stereocilia bundle mechanics were determined in stereocilin-deficient mice lacking top connectors and with detached tectorial membrane ( / double knockout) and heterozygous littermate controls ( / ). A substantial decrease in bundle stiffness and damping by ~60 and ~74% on postnatal days P13 to P15 was observed when top connectors were absent. Additionally, we followed bundle mechanics during OHC top connectors development between P9 and P15 and quantified the observed increase in OHC bundle stiffness and damping in / mice while no significant change was detected in / animals.

摘要

外毛细胞（OHC）静纤毛束的弯曲在从中排和短排的静纤毛尖端打开机械电转导通道，而由于存在水平顶连接体，束的黏合得以维持。在这里，我们使用定量非接触原子力显微镜方法来研究静纤毛束在声频刺激和纳米距离刺激时的刚度和阻尼。在缺乏顶连接体且与盖膜分离的（ / 双重敲除）和杂合子同窝对照（ / ）的缺乏立体蛋白的小鼠中确定了静纤毛束的力学特性。当顶连接体不存在时，在 P13 到 P15 的出生后第 13 天到第 15 天，束的刚度和阻尼分别显著下降约 60%和 74%。此外，我们还在 P9 到 P15 之间观察了 OHC 顶连接体的发育过程中的束力学特性，并在 / 小鼠中量化了观察到的 OHC 束刚度和阻尼的增加，而在 / 动物中未检测到明显变化。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ba8b/6382404/b3e29345784c/aat9934-F1.jpg

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Friction from Transduction Channels' Gating Affects Spontaneous Hair-Bundle Oscillations.转导通道门控的摩擦力影响毛细胞纤毛的自发摆动。

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Apical surface supracellular mechanical properties in polarized epithelium using noninvasive acoustic force spectroscopy.使用非侵入式声学力谱法研究极化上皮细胞顶端表面的超细胞力学特性。

Nat Commun. 2017 Oct 18;8(1):1030. doi: 10.1038/s41467-017-01145-8.

Underestimated sensitivity of mammalian cochlear hair cells due to splay between stereociliary columns.由于静纤毛柱之间的展开，哺乳动物耳蜗毛细胞的敏感性被低估。

Biophys J. 2015 Jun 2;108(11):2633-47. doi: 10.1016/j.bpj.2015.04.028.

Integrating the active process of hair cells with cochlear function.将毛细胞的主动过程与耳蜗功能整合。

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Transduction channels' gating can control friction on vibrating hair-cell bundles in the ear.转导通道的门控可以控制耳朵中振动毛细胞束的摩擦力。

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耳蜗外毛细胞水平顶连接体介导成熟的静纤毛束力学。

Cochlear outer hair cell horizontal top connectors mediate mature stereocilia bundle mechanics.

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