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MEK/ERK 信号通过调节 Notch 通路驱动支持细胞向功能性毛细胞的转分化。

MEK/ERK signaling drives the transdifferentiation of supporting cells into functional hair cells by modulating the Notch pathway.

机构信息

Department of ENT Institute and Otorhinolaryngology, Eye & ENT Hospital, State Key Laboratory of Medical Neurobiology, NHC Key Laboratory of Hearing Medicine Research, Fudan University, Shanghai, 200032, People's Republic of China.

出版信息

Stem Cells Transl Med. 2024 Jul 15;13(7):661-677. doi: 10.1093/stcltm/szae030.

DOI:10.1093/stcltm/szae030

PMID:38709826

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11227976/

Abstract

Loss of cochlear hair cells (HCs) leads to permanent hearing loss in mammals, and regenerative medicine is regarded as an ideal strategy for hearing recovery. Limited genetic and pharmaceutical approaches for HC regeneration have been established, and the existing strategies cannot achieve recovery of auditory function. A promising target to promote HC regeneration is MEK/ERK signaling because dynamic shifts in its activity during the critical stages of inner ear development have been observed. Here, we first showed that MEK/ERK signaling is activated specifically in supporting cells (SCs) after aminoglycoside-induced HC injury. We then selected 4 MEK/ERK signaling inhibitors, and PD0325901 (PD03) was found to induce the transdifferentiation of functional supernumerary HCs from SCs in the neonatal mammalian cochlear epithelium. We next found that PD03 facilitated the generation of HCs in inner ear organoids. Through genome-wide high-throughput RNA sequencing and verification, we found that the Notch pathway is the downstream target of MEK/ERK signaling. Importantly, delivery of PD03 into the inner ear induced mild HC regeneration in vivo. Our study thus reveals the importance of MEK/ERK signaling in cell fate determination and suggests that PD03 might serve as a new approach for HC regeneration.

摘要

毛细胞（HCs）的丧失会导致哺乳动物永久性听力损失，而再生医学被认为是听力恢复的理想策略。已经建立了有限的用于 HC 再生的遗传和药物方法，而现有策略无法实现听觉功能的恢复。促进 HC 再生的一个有前途的靶点是 MEK/ERK 信号，因为在内耳发育的关键阶段观察到其活性的动态变化。在这里，我们首先表明，氨基糖苷类诱导 HC 损伤后，MEK/ERK 信号在支持细胞（SCs）中特异性激活。然后，我们选择了 4 种 MEK/ERK 信号抑制剂，发现 PD0325901（PD03）可诱导新生哺乳动物耳蜗上皮中的功能性多余 HCs 从 SC 转分化。我们接下来发现 PD03 有助于内耳类器官中 HC 的产生。通过全基因组高通量 RNA 测序和验证，我们发现 Notch 途径是 MEK/ERK 信号的下游靶标。重要的是，将 PD03 递送至内耳可在体内诱导轻微的 HC 再生。因此，我们的研究揭示了 MEK/ERK 信号在细胞命运决定中的重要性，并表明 PD03 可能成为 HC 再生的新方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aa2c/11227976/dedae04d7bd2/szae030_fig8.jpg

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MEK/ERK 信号通过调节 Notch 通路驱动支持细胞向功能性毛细胞的转分化。

MEK/ERK signaling drives the transdifferentiation of supporting cells into functional hair cells by modulating the Notch pathway.

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出版信息

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