Project description:Hair cells play key roles in hearing and balance, and hair cell loss would result in hearing loss or vestibular dysfunction. Zebrafsh, owing to their hair cell-enriched organs, have been widely applied in hair cell-related research worldwide. 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-specifc genes, including hearing loss genes that have been identifed in humans and novel genes potentially involved in hair cell formation and function.

Project description:We have developed and tested the efficiency of the Tg(myo6b:GFP-2A-rpl10a-3xHA) zebrafish to specifically enrich for and evaluate the translatome of inner ear and lateral line sensory hair cells (IP) compared to the whole fish transcriptome (IN). We show through RNA-seq that HA-tagged ribosome immunoprecipitation significantly enriches for RNA transcripts of known zebrafish hair cell expressed transcripts.

Project description:Deafness due to the terminal loss of inner ear hair cells is one of the most common sensory diseases. However, non-mammalian animals (e.g. birds, amphibian and fish) regenerate damaged hair cells. In order to better understand the reasons underpinning such regeneration disparities in vertebrates, we set out to define the changes in gene expression associated with the regeneration of hair cells in the zebrafish lateral line at high resolution. We performed RNA-Seq analyses on regenerating support cells purified by fluorescence activated cell sorting (FACS). The zebrafish lateral line provides an experimentally accessible system to define the complex signaling events triggered by injury and regeneration, because these cells can be acutely killed by exposure to neomycin, after which they regenerate rapidly. Lateral line hair cells are located in the center of a mechanosensory organ known as the neuromast and are surrounded by inner support cells and an outer ring of mantle cells. Tg(sqET20) larvae express GFP strongly in mantle cells and to a lesser degree in inner support cells. We isolated GFP positive and GFP negative cells from 5 days post fertilization (dpf) Tg(sqET20) larvae at 1, 3 and 5 hours post neomycin treatment, as well as from a non-treated control. Transgenic zebrafish Tg(sqET20) larvae at 5 days post fertilization were exposed to neomycin, dissociated, and FACS sorted into GFP positive and GFP negative populations at 1, 3, and 5 hours following treatment, along with a mock treated 1 hr control. The experiment was performed in triplicate, for a total of 24 samples.

Project description:To investigate alterations in gene expression after Ad2-ATOH1-GFP transduction of human supporting cells, we measured transcriptome changes by RNA-seq. We compared gentamicin-treated tissue (to kill the hair cells) transduced with Ad2-ATOH1-GFP (to promote hair cell production) cultured for 5 days, versus control tissues only treated with gentamicin (cultured for 2 days, 8 days and 14-18 days).

Project description:Deafness due to the terminal loss of inner ear hair cells is one of the most common sensory diseases. However, non-mammalian animals (e.g. birds, amphibian and fish) regenerate damaged hair cells. In order to better understand the reasons underpinning such regeneration disparities in vertebrates, we set out to define the changes in gene expression associated with the regeneration of hair cells in the zebrafish lateral line at high resolution. We performed RNA-Seq analyses on regenerating support cells purified by fluorescence activated cell sorting (FACS). The zebrafish lateral line provides an experimentally accessible system to define the complex signaling events triggered by injury and regeneration, because these cells can be acutely killed by exposure to neomycin, after which they regenerate rapidly. Lateral line hair cells are located in the center of a mechanosensory organ known as the neuromast and are surrounded by inner support cells and an outer ring of mantle cells. Tg(sqET20) larvae express GFP strongly in mantle cells and to a lesser degree in inner support cells. We isolated GFP positive and GFP negative cells from 5 days post fertilization (dpf) Tg(sqET20) larvae at 1, 3 and 5 hours post neomycin treatment, as well as from a non-treated control.

Project description:This study examined transcripts that are enriched in neonatal mouse cochlear hair cells. Hair cells were purified by FACS sorting for GFP fluorescence from the cochleas of transgenic mice in which the endogenous Atoh1 gene was fused with GFP Two replicates of GFP+ hair cells were compared with all other cochlear cell types that were GFP-

Project description:This study examined transcripts that are enriched in neonatal mouse cochlear hair cells. Hair cells were purified by FACS sorting for GFP fluorescence from the cochleas of transgenic mice in which the endogenous Atoh1 gene was fused with GFP

Project description:RNAseq of GFP-sorted cells (Low-GFP vs. High-GFP, GFP-fed vs GFP+fed)

Project description:We purified Atoh1-GFP positive hair cells from organotypic cultures of P1 cochlea 3 hours after 0.5mM gentamicin treatment and performed RNA sequencing to profile the early transcriptional response of hair cells to aminoglycoside antibiotics. Levels of mRNA in gentamicin-treated hair cells (three replicates) were compared to untreated hair cells (three replicates). GFP negative, non-hair cells populations from treated organs were compared to those from untreated organs (three replicates for each condition).

Project description:scRNA-seq on GFP + cells sorted from the Tg(mitfa:GFP) transgenic zebrafish embryos at 28 hours post fertilization (hpf) using the 10x Chromium system