Analysis of miRNAs from Inner Ear Organoid-Derived Extracellular Vesicles.

IF 2.3 3区医学 Q3 NEUROSCIENCES

Jaro-Journal of the Association for Research in Otolaryngology Pub Date : 2025-08-01 Epub Date: 2025-07-16 DOI:10.1007/s10162-025-00998-x

Sehee Lee, Marie Kubota, Euyhyun Park, Stefan Heller, Gi Jung Im, Jiwon Chang

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引用次数: 0

Abstract

Purpose: Permanent hearing loss primarily results from the inability of the mammalian cochlea to replace lost inner ear hair cells. However, neonatal mice exhibit a unique capacity: isolated cochlear floor cells can efficiently proliferate in vitro and form organoids that harbor new hair cells and supporting cell populations. In this study, we isolated extracellular vesicles (EVs) from organoids and analyzed the miRNAs derived from them to identify gene regulatory elements that coordinate proliferation and regeneration.

Method: We utilized cochlear floor cells from postnatal day two mice and optimized the culture conditions to efficiently grow organoids that exhibit progenitor properties. Next, we isolated EVs from the culture media of organoids in their proliferative state. We analyzed miRNAs contained in these EVs to identify potential regulators that drive or modulate organoid cell proliferation. The miRNA sequencing data from organoid EVs were compared with miRNAs identified in EVs obtained from the culture supernatant of P2 mouse cochlear ducts.

Results: We identified 184 miRNAs in organoid EVs and 176 miRNAs in cochlear duct EVs. A total of 122 miRNAs differed more than twofold between these groups, with 12 miRNAs (10 upregulated and 2 downregulated in organoid EVs) exhibiting statistically significant differences. The target genes of these twelve differentially expressed miRNAs are associated with pathways related to pluripotent stem cell regulation, cell proliferation, ear development, and cell fate modulation. This indicates that the miRNAs in organoid-derived EVs may impact processes associated with cell proliferation and the generation of inner ear cell types.

Conclusion: Our study comprehensively inventoried miRNAs contained in EVs released by growing inner ear organoids. Our differential miRNA expression analysis provides insight into regulatory mechanisms that promote cochlear floor cell proliferation and organoid formation, which could be leveraged in miRNA-based therapeutic approaches.

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内耳类器官来源的细胞外囊泡microrna分析。

目的：永久性听力损失主要是由于哺乳动物的耳蜗无法替代丢失的内耳毛细胞。然而，新生小鼠表现出一种独特的能力：分离的耳蜗底细胞可以在体外有效地增殖，形成含有新毛细胞和支持细胞群的类器官。在这项研究中，我们从类器官中分离出细胞外囊泡（EVs），并分析来自它们的mirna，以鉴定协调增殖和再生的基因调控元件。方法：利用出生后2天的小鼠耳蜗底细胞，优化培养条件，高效培养具有祖细胞特性的类器官。接下来，我们从增殖状态的类器官培养基中分离出ev。我们分析了这些ev中包含的mirna，以确定驱动或调节类器官细胞增殖的潜在调节因子。将类器官ev的miRNA测序数据与P2小鼠耳蜗管培养上清中ev中鉴定的miRNA进行比较。结果：我们在类器官evas中鉴定出184个mirna，在耳蜗管evas中鉴定出176个mirna。这些组之间共有122个mirna差异超过两倍，其中12个mirna（10个在类器官ev中上调，2个在类器官ev中下调）具有统计学显著差异。这12个差异表达的mirna的靶基因与多能干细胞调控、细胞增殖、耳部发育和细胞命运调节相关的途径有关。这表明，类器官衍生ev中的mirna可能影响与细胞增殖和内耳细胞类型产生相关的过程。结论：本研究全面盘点了生长中的内耳类器官释放的ev中所含的mirna。我们的差异miRNA表达分析提供了促进耳蜗底细胞增殖和类器官形成的调控机制，这可以在基于miRNA的治疗方法中得到利用。

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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来源期刊

Jaro-Journal of the Association for Research in Otolaryngology 医学-耳鼻喉科学

CiteScore

4.10

自引率

12.50%

发文量

审稿时长

6-12 weeks

期刊介绍： JARO is a peer-reviewed journal that publishes research findings from disciplines related to otolaryngology and communications sciences, including hearing, balance, speech and voice. JARO welcomes submissions describing experimental research that investigates the mechanisms underlying problems of basic and/or clinical significance. Authors are encouraged to familiarize themselves with the kinds of papers carried by JARO by looking at past issues. Clinical case studies and pharmaceutical screens are not likely to be considered unless they reveal underlying mechanisms. Methods papers are not encouraged unless they include significant new findings as well. Reviews will be published at the discretion of the editorial board; consult the editor-in-chief before submitting.