精确的 ATOH1 基因调控增强了成熟小鼠耳石器中再生毛细胞的成熟。

Precise genetic control of ATOH1 enhances maturation of regenerated hair cells in the mature mouse utricle.

机构信息

Department of Otolaryngology-Head and Neck Surgery, Stanford University School of Medicine, Palo Alto, CA, 94305, USA.

Department of Otolaryngology-Head and Neck Surgery, The Second Xiangya Hospital, Central South University, Changsha, 410011, Hunan, China.

出版信息

Nat Commun. 2024 Oct 24;15(1):9166. doi: 10.1038/s41467-024-53153-0.

DOI:10.1038/s41467-024-53153-0

PMID:39448563

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11502789/

Abstract

Vestibular hair cells are mechanoreceptors critical for detecting head position and motion. In mammals, hair cell loss causes vestibular dysfunction as spontaneous regeneration is nearly absent. Constitutive expression of exogenous ATOH1, a hair cell transcription factor, increases hair cell regeneration, however, these cells fail to fully mature. Here, we profiled mouse utricles at 14 time points, and defined transcriptomes of developing and mature vestibular hair cells. To mimic native hair cells which downregulate endogenous ATOH1 as they mature, we engineered viral vectors carrying the supporting cell promoters GFAP and RLBP1. In utricles damaged ex vivo, both CMV-ATOH1 and GFAP-ATOH1 increased regeneration more effectively than RLBP1-ATOH1, while GFAP-ATOH1 and RLBP1-ATOH1 induced hair cells with more mature transcriptomes. In utricles damaged in vivo, GFAP-ATOH1 induced regeneration of hair cells expressing genes indicative of maturing type II hair cells, and more hair cells with bundles and synapses than untreated organs. Together our results demonstrate the efficacy of spatiotemporal control of ATOH1 overexpression in inner ear hair cell regeneration.

摘要

前庭毛细胞是检测头部位置和运动的机械感受器，在哺乳动物中，毛细胞的丧失会导致前庭功能障碍，因为自发再生几乎不存在。外源性 ATOH1 的组成型表达，一种毛细胞转录因子，增加了毛细胞的再生，然而，这些细胞不能完全成熟。在这里，我们在 14 个时间点对小鼠耳石进行了分析，并定义了发育中和成熟的前庭毛细胞的转录组。为了模拟内源性 ATOH1 随着成熟而下调的天然毛细胞，我们设计了携带支持细胞启动子 GFAP 和 RLBP1 的病毒载体。在体外损伤的耳石中，CMV-ATOH1 和 GFAP-ATOH1 比 RLBP1-ATOH1 更有效地增加再生，而 GFAP-ATOH1 和 RLBP1-ATOH1 诱导具有更成熟转录组的毛细胞。在体内损伤的耳石中，GFAP-ATOH1 诱导表达成熟 II 型毛细胞特征基因的毛细胞再生，并且比未处理的器官具有更多的带有束和突触的毛细胞。总之，我们的结果证明了在内耳毛细胞再生中时空控制 ATOH1 过表达的有效性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1975/11502789/418222bd1939/41467_2024_53153_Fig1_HTML.jpg

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精确的 ATOH1 基因调控增强了成熟小鼠耳石器中再生毛细胞的成熟。

Precise genetic control of ATOH1 enhances maturation of regenerated hair cells in the mature mouse utricle.

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