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Organoids from mouse molar and incisor as new tools to study tooth-specific biology and development

Florian Hermans, Lara Hemeryck, Celine Bueds, Marc Torres Pereiro, Steffie Hasevoets, Hiroto Kobayashi, Diether Lambrechts, Ivo Lambrichts, Annelies Bronckaers, Hugo Vankelecom

2023Stem Cell Reports28 citationsDOIOpen Access PDF

Abstract

Organoid models provide powerful tools to study tissue biology and development in a dish. Presently, organoids have not yet been developed from mouse tooth. Here, we established tooth organoids (TOs) from early-postnatal mouse molar and incisor, which are long-term expandable, express dental epithelium stem cell (DESC) markers, and recapitulate key properties of the dental epithelium in a tooth-type-specific manner. TOs display in vitro differentiation capacity toward ameloblast-resembling cells, even more pronounced in assembloids in which dental mesenchymal (pulp) stem cells are combined with the organoid DESCs. Single-cell transcriptomics supports this developmental potential and reveals co-differentiation into junctional epithelium- and odontoblast-/cementoblast-like cells in the assembloids. Finally, TOs survive and show ameloblast-resembling differentiation also in vivo. The developed organoid models provide new tools to study mouse tooth-type-specific biology and development and gain deeper molecular and functional insights that may eventually help to achieve future human biological tooth repair and replacement.

Topics & Concepts

BiologyMolarOrganoidIncisorCell biologyComputational biologyEvolutionary biologyEcologyPaleontologyBone and Dental Protein Studiesdental development and anomaliesDental Trauma and Treatments
Organoids from mouse molar and incisor as new tools to study tooth-specific biology and development | Litcius