Mst1/2活性缺失促进新生柯蒂氏器中无丝分裂毛细胞的生成。

Loss of Mst1/2 activity promotes non-mitotic hair cell generation in the neonatal organ of Corti.

作者信息

Lu Xiaoling, Yu Huiqian, Ma Jiaoyao, Wang Kunkun, Guo Luo, Zhang Yanping, Li Boan, Zhao Zehang, Li Huawei, Sun Shan

机构信息

ENT Institute and Department of Otorhinolaryngology, Eye & ENT Hospital, State Key Laboratory of Medical Neurobiology and MOE Frontiers Center for Brain Science, NHC Key Laboratory of Hearing Medicine (Fudan University), Fudan University, 200031, Shanghai, P. R. China.

Xiamen University School of Life Sciences, 361100, Xiamen, P. R. China.

出版信息

NPJ Regen Med. 2022 Oct 25;7(1):64. doi: 10.1038/s41536-022-00261-4.

DOI:10.1038/s41536-022-00261-4

PMID:36280668

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9592590/

Abstract

Mammalian sensory hair cells (HCs) have limited capacity for regeneration, which leads to permanent hearing loss after HC death. Here, we used in vitro RNA-sequencing to show that the Hippo signaling pathway is involved in HC damage and self-repair processes. Turning off Hippo signaling through Mst1/2 inhibition or Yap overexpression induces YAP nuclear accumulation, especially in supporting cells, which induces supernumerary HC production and HC regeneration after injury. Mechanistically, these effects of Hippo signaling work synergistically with the Notch pathway. Importantly, the supernumerary HCs not only express HC markers, but also have cilia structures that are able to form neural connections to auditory regions in vivo. Taken together, regulating Hippo suggests new strategies for promoting cochlear supporting cell proliferation, HC regeneration, and reconnection with neurons in mammals.

摘要

哺乳动物的感觉毛细胞（HCs）再生能力有限，这会导致HCs死亡后永久性听力丧失。在这里，我们使用体外RNA测序表明，Hippo信号通路参与了HCs的损伤和自我修复过程。通过抑制Mst1/2或过表达Yap来关闭Hippo信号，会诱导YAP在细胞核内积累，尤其是在支持细胞中，这会诱导损伤后产生额外的HCs并实现HCs再生。从机制上讲，Hippo信号的这些作用与Notch信号通路协同发挥作用。重要的是，额外的HCs不仅表达HC标记物，还具有能够在体内与听觉区域形成神经连接的纤毛结构。综上所述，调节Hippo信号为促进哺乳动物耳蜗支持细胞增殖、HCs再生以及与神经元重新连接提供了新策略。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6dbf/9592590/5053723a969a/41536_2022_261_Fig1_HTML.jpg

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Mst1/2活性缺失促进新生柯蒂氏器中无丝分裂毛细胞的生成。

Loss of Mst1/2 activity promotes non-mitotic hair cell generation in the neonatal organ of Corti.

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