SMAD4 缺陷通过特异性破坏小鼠耳蜗纤维状突触而导致听觉神经病。

SMAD4 Defect Causes Auditory Neuropathy Via Specialized Disruption of Cochlear Ribbon Synapses in Mice.

机构信息

Department of Otolaryngology, Head and Neck Surgery, The Institute of Otolaryngology, Chinese PLA General Hospital, 28 Fuxing Road, Beijing, 100853, China.

The State Key Laboratory of Proteomics, Genetics Laboratory of Development and Disease, Institute of Biotechnology, AMMS, Beijing, 100071, China.

出版信息

Mol Neurobiol. 2016 Oct;53(8):5679-91. doi: 10.1007/s12035-015-9454-1. Epub 2015 Oct 21.

DOI:10.1007/s12035-015-9454-1

PMID:26491026

Abstract

More than 100 genes have been associated with deafness. However, SMAD4 is rarely considered a contributor to deafness in humans, except for its well-defined role in cell differentiation and regeneration. Here, we report that a SMAD4 defect in mice can cause auditory neuropathy, which was defined as a mysterious hearing and speech perception disorder in human for which the genetic background remains unclear. Our study showed that a SMAD4 defect induces failed formation of cochlear ribbon synapse during the earlier stage of auditory development in mice. Further investigation found that there are nearly normal morphology of outer hair cells (OHCs) and post-synapse spiral ganglion nerves (SGNs) in SMAD4 conditional knockout mice (cKO); however, a preserved distortion product of otoacoustic emission (DPOAE) and cochlear microphonic (CM) still can be evoked in cKO mice. Moreover, a partial restoration of hearing detected by electric auditory brainstem response (eABR) has been obtained in the cKO mice using electrode stimuli toward auditory nerves. Additionally, the ribbon synapses in retina are not affected by this SMAD4 defect. Thus, our findings suggest that this SMAD4 defect causes auditory neuropathy via specialized disruption of cochlear ribbon synapses.

摘要

已有 100 多个基因与耳聋相关。然而，除了在细胞分化和再生方面的明确作用外，SMAD4 很少被认为是人类耳聋的一个致病基因，尽管其在细胞分化和再生方面的作用明确。在这里，我们报告了小鼠 SMAD4 缺陷可导致听觉神经病，这是一种在人类中定义不明确的神秘听力和言语感知障碍，其遗传背景尚不清楚。我们的研究表明，SMAD4 缺陷会导致小鼠听觉发育早期耳蜗带状突触形成失败。进一步的研究发现，SMAD4 条件性敲除（cKO）小鼠的外毛细胞（OHCs）和突触后螺旋神经节神经（SGNs）形态几乎正常；然而，cKO 小鼠仍可诱发正常的畸变产物耳声发射（DPOAE）和耳蜗微音（CM）。此外，在 cKO 小鼠中，通过对听神经进行电极刺激，我们在电听觉脑干反应（eABR）中检测到听力的部分恢复。此外，SMAD4 缺陷并未影响视网膜中的带状突触。因此，我们的研究结果表明，SMAD4 缺陷通过专门破坏耳蜗带状突触导致听觉神经病。

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SMAD4 缺陷通过特异性破坏小鼠耳蜗纤维状突触而导致听觉神经病。

SMAD4 Defect Causes Auditory Neuropathy Via Specialized Disruption of Cochlear Ribbon Synapses in Mice.

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