Genetic and pharmacologic alterations of claudin9 levels suffice to induce functional and mature inner hair cells.

bioRxiv : the preprint server for biology Pub Date : 2024-11-08 DOI:10.1101/2023.10.08.561387

Yingying Chen, Jeong Han Lee, Jin Li, Seojin Park, Maria C Perez Flores, Braulio Peguero, Jennifer Kersigo, Mincheol Kang, Jinsil Choi, Lauren Levine, Michael Anne Gratton, Bernd Fritzsch, Ebenezer N Yamoah

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Abstract

Hearing loss is the most common form of sensory deficit. It occurs predominantly due to hair cell (HC) loss. Mammalian HCs are terminally differentiated by birth, making HC loss challenging to replace. Here, we show the pharmacogenetic downregulation of Cldn9, a tight junction protein, generates robust supernumerary inner HCs (IHCs) in mice. The ectopic IHC shared functional and synaptic features akin to typical IHCs and were surprisingly and remarkably preserved for at least fifteen months >50% of the mouse's life cycle. In vivo, Cldn9 knockdown using shRNA on postnatal days (P) P2-7 yielded analogous functional ectopic IHCs that were equally durably conserved. The findings suggest that Cldn9 levels coordinate embryonic and postnatal HC differentiation, making it a viable target for altering IHC development pre- and post-terminal differentiation.

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claudin9水平的遗传和药理学改变足以诱导功能性和成熟的内毛细胞。

听力损失是最常见的感觉缺陷形式。它主要是由于毛细胞（HC）的损失而发生的。哺乳动物HC在出生时就已分化到晚期，因此HC的丧失是无法治愈的。在这里，我们展示了紧密连接蛋白Cldn9的药物遗传学下调，在小鼠中产生强大的多个内部HC（IHCs）。假定的异位IHCs具有类似于典型IHCs的功能和突触特征，并且令人惊讶地显著保存了至少15个月>小鼠生命周期的50%。在体内，在出生后第（P）P1-7天使用shRNA敲除Cldn9产生了类似的功能性推定异位IHCs，这些IHCs同样持久保守。研究结果表明，Cldn9水平协调了胚胎和出生后HC的分化，使其成为改变IHC分化前后发育的可行靶点。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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bioRxiv : the preprint server for biology

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