Gadd45g regulates dental epithelial cell proliferation through p38 MAPK-mediated p21 expression.

Ectodermal organs, such as teeth, hair follicles, and mammary glands, arise from their respective germs through epithelial-mesenchymal interactions during organogenesis. Growth arrest and DNA damage-inducible gene gamma (Gadd45g) have been shown to play important roles in various biological processes, such as stress responses, cell differentiation, and tumor suppression, through the regulation of cell proliferation and gene expression. We found that Gadd45g was expressed in enamel knots, which orchestrate tooth germ development as epithelial signaling centers. Gadd45g induced the expression of p21 and inhibited the proliferation of dental epithelial cells. The up-regulation of p21 expression was regulated by Gadd45g-mediated activation of the p38 MAPK pathway. Thus, our results suggest that Gadd45g is involved in the regulation of p21-mediated epithelial cell proliferation through the p38 MAPK pathway during tooth organ development.

Dpysl4 is involved in tooth germ morphogenesis through growth regulation, polarization and differentiation of dental epithelial cells.

Dihydropyrimidinase-related protein 4 (Dpysl4) is a known regulator of hippocampal neuron development. Here, we report that Dpysl4 is involved in growth regulation, polarization and differentiation of dental epithelial cells during tooth germ morphogenesis. A reduction in Dpysl4 gene expression in the tooth germ produced a loss of ameloblasts, resulting in the decrease of synthesis and secretion of enamel. The inhibition of Dpysl4 gene expression led to promotion of cell proliferation of inner enamel epithelial cells and inhibition of the differentiation of these cells into pre-ameloblasts, which was confirmed by analyzing cell polarization, columnar cell structure formation and the expression of ameloblast marker genes. By contrast, overexpression of Dpysl4 in dental epithelial cells induces inhibition of growth and increases the expression of the inner enamel epithelial cell marker gene, Msx2. These findings suggest that Dpysl4 plays essential roles in tooth germ morphogenesis through the regulation of dental epithelial cell proliferation, cell polarization and differentiation.