Klc2缺陷导致C57BL/6 J小鼠和人类出现低频感音神经性听力损失。

Deficiency of Klc2 Induces Low-Frequency Sensorineural Hearing Loss in C57BL/6 J Mice and Human.

作者信息

Fu Xiaolong, An Yachun, Wang Hongyang, Li Peipei, Lin Jing, Yuan Jia, Yue Rongyu, Jin Yecheng, Gao Jiangang, Chai Renjie

机构信息

State Key Laboratory of Bioelectronics, School of Life Sciences and Technology, Jiangsu Province High-Tech Key Laboratory for Bio-Medical Research, Southeast University, Nanjing, China.

College of Laboratory Animal & Shandong Laboratory Animal Center, Shandong First Medical University & Shandong Academy of Medical Sciences, Jinan, China.

出版信息

Mol Neurobiol. 2021 Sep;58(9):4376-4391. doi: 10.1007/s12035-021-02422-w. Epub 2021 May 20.

DOI:10.1007/s12035-021-02422-w

PMID:34014435

Abstract

The transport system in cochlear hair cells (HCs) is important for their function, and the kinesin family of proteins transports numerous cellular cargos via the microtubule network in the cytoplasm. Here, we found that Klc2 (kinesin light chain 2), the light chain of kinesin-1 that mediates cargo binding and regulates kinesin-1 motility, is essential for cochlear function. We generated mice lacking Klc2, and they suffered from low-frequency hearing loss as early as 1 month of age. We demonstrated that deficiency of Klc2 resulted in abnormal transport of mitochondria and the down-regulation of the GABAA receptor family. In addition, whole-genome sequencing (WGS) of patient showed that KLC2 was related to low-frequency hearing in human. Hence, to explore therapeutic approaches, we developed adeno-associated virus containing the Klc2 wide-type cDNA sequence, and Klc2-null mice delivered virus showed apparent recovery, including decreased ABR threshold and reduced out hair cell (OHC) loss. In summary, we show that the kinesin transport system plays an indispensable and special role in cochlear HC function in mice and human and that mitochondrial localization is essential for HC survival.

摘要

耳蜗毛细胞（HCs）中的转运系统对其功能至关重要，驱动蛋白家族的蛋白质通过细胞质中的微管网络运输多种细胞货物。在此，我们发现驱动蛋白-1的轻链Klc2（驱动蛋白轻链2）介导货物结合并调节驱动蛋白-1的运动，对耳蜗功能至关重要。我们培育出缺乏Klc2的小鼠，它们早在1月龄时就出现低频听力损失。我们证明，Klc2缺乏导致线粒体转运异常以及GABAA受体家族下调。此外，对患者的全基因组测序（WGS）表明，KLC2与人类低频听力有关。因此，为了探索治疗方法，我们开发了含有Klc2野生型cDNA序列的腺相关病毒，给Klc2基因敲除小鼠注射病毒后，它们表现出明显恢复，包括听性脑干反应（ABR）阈值降低和外毛细胞（OHC）损失减少。总之，我们表明，驱动蛋白转运系统在小鼠和人类耳蜗HC功能中起不可或缺的特殊作用，线粒体定位对HC存活至关重要。

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Klc2缺陷导致C57BL/6 J小鼠和人类出现低频感音神经性听力损失。

Deficiency of Klc2 Induces Low-Frequency Sensorineural Hearing Loss in C57BL/6 J Mice and Human.

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