Loss of β‐catenin causes cementum hypoplasia by hampering cementogenic differentiation of Axin2‐expressing cells

Abstract

AbstractBackground and ObjectiveAlthough cementum plays an essential role in tooth attachment and adaptation to occlusal force, the regulatory mechanisms of cementogenesis remain largely unknown. We have previously reported that Axin2‐expressing (Axin2+) mesenchymal cells in periodontal ligament (PDL) are the main cell source for cementum growth, and constitutive activation of Wnt/β‐catenin signaling in Axin2+ cells results in hypercementosis. Therefore, the aim of the present study was to further evaluate the effects of β‐catenin deletion in Axin2+ cells on cementogenesis.Materials and MethodsWe generated triple transgenic mice to conditionally delete β‐catenin in Axin2‐lineage cells by crossing Axin2CreERT2/+; R26RtdTomato/+ mice with β‐cateninflox/flox mice. Multiple approaches, including X‐ray analysis, micro‐CT, histological stainings, and immunostaining assays, were used to analyze cementum phenotypes and molecular mechanisms.ResultsOur data revealed that loss of β‐catenin in Axin2+ cells led to a cementum hypoplasia phenotype characterized by a sharp reduction in the formation of both acellular and cellular cementum. Mechanistically, we found that conditional removal of β‐catenin in Axin2+ cells severely impaired the secretion of cementum matrix proteins, for example, bone sialoprotein (BSP), dentin matrix protein 1 (DMP1) and osteopontin (OPN), and markedly inhibited the differentiation of Axin2+ mesenchymal cells into osterix+ cementoblasts.ConclusionsOur findings confirm the vital role of Axin2+ mesenchymal PDL cells in cementum growth and demonstrate that Wnt/β‐catenin signaling shows a positive correlation with cementogenic differentiation of Axin2+ cells.