Single-cell RNA-sequencing from mouse incisor reveals dental epithelial cell-type specific genes
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ABSTRACT: Dental epithelial stem cells give rise to all dental epithelial cell types, inner enamel epithelium, outer enamel epithelium, ameloblasts, stratum intermedium and stellate reticulum to form enamel. These all types of epithelial cells have distinct roles and are essential for enamel formation. These cell types are conventionally classified by their cell shape, however, the transcriptome and biological roles of each cell types are not fully understood. Here, we used single-cell RNA-sequencing to clarify the heterogeneity of dental epithelial cell types. Unbiased clustering of 6260 single-cells from post-natal day 7 mouse incisors are classified into 4 dental epithelial and 2 mesenchymal populations; 2 clusters of ameloblast, IEE/OEE and SI/SR clusters. Secretory-stage of ameloblasts were divided into Dspp+ or Ambn+ ameloblast. Pseudo-time analysis indicated that Dspp+ ameloblast differentiate into Ambn+ ameloblast. Further, Dspp and Ambn would be stage-specific markers of ameloblast. Gene Ontology (GO) analyses of each clusters indicate potent roles of cell types; OEE in regulation of tooth size and SR in transport of nutrition. Moreover, we identified novel dental epithelial cell marker genes, Pttg1, Atf3, Cldn10 and Krt15. These results provide a resource of transcriptome data in dental cells and contribute further molecular analyses of enamel formation.
ORGANISM(S): Mus musculus
PROVIDER: GSE146855 | GEO | 2020/09/23
REPOSITORIES: GEO
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