Transcriptional signature of murine nasal ChAT-eGFP+ cells identified by RNASeq
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ABSTRACT: Purpose: Choline acetyltransferase (ChAT)-expressing epithelial cells are found in the upper and lower airways. In the trachea, they are referred to as brush cells. In the mouse nose two distinct populations of ChAT-eGFP+ cells had been previously described: a population of rare solitary chemosensory cells (SCCs) in the respiratory mucosa and a more abundant population of microvillous cells (MVCs) in the olfactory epithelium. Besides ChAT expression, SCCs share the expression of bitter taste receptors and signaling machinery with tracheal brush cells as well as close association with CGPR+ nerve fibers and an elongated shape. MVCs do not express bitter taste receptors, are not clearly associated with nerves and are smaller in size than SCCs. We have previously reported the transcriptional profile of tracheal ChAT-expressing brush cells but the transcriptional profile of nasal chemosensory ChAT+ epithelial cells has not been reported. Methods: In this study, we isolated nasal ChAT-eGFP+ cells by FACS from naïve ChAT(BAC)-eGFP mice with knockin of eGFP within a BAC spanning the ChAT locus, marking brush cells in the epithelium and performed transcriptome profiling using low input RNA sequencing. We sorted two distinct subsets of ChAT-eGFP+ epithelial cells from the nasal mucosa based on FACS ice and granularity characteristic: ChAT-eGFP+ EpCAM+ FSC/SSChigh (representing 5% of all ChAT-eGFP+ cells) and FSC/SSClow (representing 95% of all ChAT-eGFP+ cells), respectively. We compared them to unfractionated ChAT-eGFP- EpCAM+ epithelial cells. Results: Both nasal ChAT-eGFP subsets shared the core transcriptional profile of chemosensory cells from the intestine, trachea, gallbladder and thymus including the expression of Il25, Pou2f3, Trpm5, Avil, Plcb2 and transcripts of eicosanoid biosynthetic enzymes suggesting that most ChAT-eGFP+ cells in the nose belong to the chemosensory/tuft/brush cel family. The two subsets of nasal ChAT-eGFP+ cells differed in expression of taste receptors and taste receptor signaling machinery. Conclusions: Our study represents the first detailed analysis of the transcriptome of nasal ChAT-eGFP+ cells (brush cells) and identifies two subsets of nasal brush cells that share a core transcriptional signature but differ in expression of bitter taste receptors.
ORGANISM(S): Mus musculus
PROVIDER: GSE139014 | GEO | 2020/01/16
REPOSITORIES: GEO
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