利用胚胎鼻干细胞重建功能性嗅觉组织

bioRxiv - Developmental Biology Pub Date : 2024-09-15 DOI:10.1101/2024.09.13.612986

Kazuya Suzuki, Fumi Wagai, Mototsugu Eiraku

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摘要

在嗅上皮（OE）的发育过程中，嗅觉神经元（OSN）只表达气味受体（OR）基因家族中的一个成员，表达相同OR的OSN将其轴突汇聚到嗅球（OB）上的同一组肾小球。由此形成的气味图谱能让小鼠利用大约1000个OR分辨出10万多种不同的气味。气味图谱是如何形成的仍是个谜。在这里，我们展示了一种用小鼠胚胎OE干细胞形成具有假层状结构的OE器官组织的方法。单细胞RNA测序显示，OE器官组织产生了所有的OE细胞系，并经历了活跃的神经发生过程。我们还发现，OE器官组织中的大多数OSN只表达一种类型的OR，并表现出轴突导向相关基因的独特分子代码，可以区分不同类型的OR。因此，OE器官组织可能是研究嗅神经系统发育的有用模型。

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Reconstruction of functional olfactory sensory tissue from embryonic nasal stem cells

During the development of the olfactory epithelium (OE), olfactory sensory neurons (OSNs) express only one member of the odorant receptor (OR) gene family, and OSNs expressing the same OR converge their axons to the same set of glomeruli on the olfactory bulb (OB). The resulting odor maps allow mice to discriminate more than 100,000 different odorants using about 1,000 ORs. It remains elusive how odor maps are formed. Here, we show a means of forming OE organoids with pseudostratified structure from mouse embryonic OE stem cells. Single-cell RNA sequencing revealed that the OE organoids give rise to all the OE cellular lineages and undergo active neurogenesis. We also found that most OSNs in OE organoids exclusively express only one type of ORs and exhibit a unique molecular code of axon guidance-related genes that can discriminate between OR classes. Thus, OE organoids could be a useful model for studying olfactory nervous system development.

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bioRxiv - Developmental Biology

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