Primary cilia, functioning as crucial hubs for signal sensing and transduction, are integral to the development and maintenance of homeostasis across various organs. However, their roles in tooth homeostasis and repair remain inadequately understood. In this study, we reveal an indispensable role for primary cilia in regulating the homeostasis and regeneration of teeth, primarily through the regulation of cell proliferation. Using cilium-deficient mice, we demonstrate that disruption of ciliary homeostasis leads to abnormal tooth morphology, stunted growth and notably impaired tooth repair. RNA sequencing reveals a dysregulation in genes associated with various biological processes such as cell proliferation, differentiation, and cycle regulation. Furthermore, we show that cilium-deficient mice display reduced cell proliferation. Our findings highlight a critical function for primary cilia in the regulation of tooth homeostasis and regeneration and have important implications for the development of tooth regeneration therapies.
Keywords: IFT88; homeostasis; primary cilium; regeneration; stem cell; tooth.
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