Dental cell type atlas reveals stem and differentiated cell types in mouse and human teeth

Jan Křivánek; Ruslan Soldatov; Maria Eleni Kastriti; Tatiana Chontorotzea; Anna Nele Herdina; Julian Petersen; Bára Szarowská; Marie Landová; Veronika Kovar Matejova; Lýdie Izakovičová Hollá; Ulrike Kuchler; Ivana Vidović Zdrilić; Anushree Vijaykumar; Anamaria Balic; Pauline Marangoni; Ophir D. Klein; Vitor C. M. Neves; Val Yianni; Paul T. Sharpe; Tibor Harkany; Brian Metscher; Marc Bajénoff; Mina Mina; Kaj Fried; Peter V. Kharchenko; Igor Adameyko

doi:10.1038/s41467-020-18512-7

Dental cell type atlas reveals stem and differentiated cell types in mouse and human teeth

Jan Křivánek(Masaryk University), Ruslan Soldatov(Harvard University), Maria Eleni Kastriti(Karolinska Institutet), Tatiana Chontorotzea(Medical University of Vienna), Anna Nele Herdina(Karolinska Institutet), Julian Petersen(Karolinska Institutet), Bára Szarowská(Medical University of Vienna), Marie Landová(Czech Academy of Sciences, Institute of Animal Physiology and Genetics), Veronika Kovar Matejova(Masaryk University), Lýdie Izakovičová Hollá(Masaryk University), Ulrike Kuchler(Medical University of Vienna), Ivana Vidović Zdrilić(UConn Health), Anushree Vijaykumar(UConn Health), Anamaria Balic(University of Helsinki), Pauline Marangoni(University of California, San Francisco), Ophir D. Klein(University of California, San Francisco), Vitor C. M. Neves(King's College London), Val Yianni(King's College London), Paul T. Sharpe(King's College London), Tibor Harkany(Karolinska Institutet), Brian Metscher(University of Vienna), Marc Bajénoff(Centre National de la Recherche Scientifique), Mina Mina(UConn Health), Kaj Fried(Karolinska Institutet), Peter V. Kharchenko(Harvard University), Igor Adameyko(Karolinska Institutet)

Nature Communications

September 23, 2020

10.1038/s41467-020-18512-7

Cited by 251Open Access

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Abstract

Understanding cell types and mechanisms of dental growth is essential for reconstruction and engineering of teeth. Therefore, we investigated cellular composition of growing and non-growing mouse and human teeth. As a result, we report an unappreciated cellular complexity of the continuously-growing mouse incisor, which suggests a coherent model of cell dynamics enabling unarrested growth. This model relies on spatially-restricted stem, progenitor and differentiated populations in the epithelial and mesenchymal compartments underlying the coordinated expansion of two major branches of pulpal cells and diverse epithelial subtypes. Further comparisons of human and mouse teeth yield both parallelisms and differences in tissue heterogeneity and highlight the specifics behind growing and non-growing modes. Despite being similar at a coarse level, mouse and human teeth reveal molecular differences and species-specific cell subtypes suggesting possible evolutionary divergence. Overall, here we provide an atlas of human and mouse teeth with a focus on growth and differentiation.

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