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Single-cell RNA-sequencing of zebrafish hair cells reveals novel genes potentially involved in hearing loss
来源: | 作者:Fuping Qian # 1, Guanyun Wei # 1, Yajing Gao # 2, Xin Wang # 2, Jie Gong 1, Chao Guo 1, Xiaoning Wang 2, Xu Zhang 2, Jinxiang Zhao 2, Cheng Wang 1, Mengting Xu 2, Yuebo Hu 2, Guoli Yin 2, Jiahui Kang 3, Renjie Chai 4 5 6 7 8, Gangcai Xie 9, Dong Liu 10 11 | 发布时间: 2022-07-13 | 383 次浏览 | 分享到:

Hair cells play key roles in hearing and balance, and hair cell loss would result in hearing loss or vestibular dysfunction. Cellular and molecular research in hair cell biology provides us a better understanding of hearing and deafness. Zebrafish, owing to their hair cell-enriched organs, have been widely applied in hair cell-related research worldwide. Similar to mammals, zebrafish have inner ear hair cells. In addition, they also have lateral line neuromast hair cells. These different types of hair cells vary in morphology and function. However, systematic analysis of their molecular characteristics remains lacking. In this study, we analyzed the GFP+ cells isolated from Tg(Brn3c:mGFP) larvae with GFP expression in all hair cells using single-cell RNA-sequencing (scRNA-seq). Three subtypes of hair cells, namely macula hair cell (MHC), crista hair cell (CHC), and neuromast hair cell (NHC), were characterized and validated by whole-mount in situ hybridization analysis of marker genes. The hair cell scRNA-seq data revealed hair cell-specific genes, including hearing loss genes that have been identified in humans and novel genes potentially involved in hair cell formation and function. Two novel genes were discovered to specifically function in NHCs and MHCs, corresponding to their specific expression in NHCs and MHCs. This study allows us to understand the specific genes in hair cell subpopulations of zebrafish, which will shed light on the genetics of both human vestibular and cochlear hair cell function.

Keywords: Hair cell; Zebrafish; scRNA-seq.