纤毛
鞭毛内运输
牙本质形成
间充质干细胞
祖细胞
再生(生物学)
细胞器
化学
细胞分化
平衡
生物
睫状体病
运动纤毛
细胞
纤毛形成
细胞生长
干细胞
细胞命运测定
细胞生物学
作者
Xiaoqiao Xu,Lei Zhang,Xuyan Gong,Xinyu Li,Dike Tao,Pingping Niu,Yao Sun
摘要
Dentin, the primary hard tissue of teeth, is formed through the differentiation of dental mesenchymal progenitor cells into odontoblasts. Primary cilia, essential organelles on the surface of mesenchymal cell populations, are dynamically regulated in length and play a crucial role in dentinogenesis. However, the specific role of primary cilia length stability, in the regulation of cell function and dentin formation and repair, remains to be fully elucidated. Through spatial transcriptome analysis combined with mouse molar development studies, we found that ciliary membrane gene Arl13b specifically maintains cilia length homeostasis by suppressing cilia decapitation. ARL13B deficiency, which results in cilia shortening, would interfere with the differentiation fate of dental mesenchymal progenitor cells. Mechanistically, the abnormally shortened cilia disrupt intraflagellar transport-mediated SHH signaling within cilia, thereby inhibiting the odontoblastic differentiation, and ultimately affecting tertiary dentin formation during injury repair. These findings indicate that the maintenance of primary cilia length homeostasis is crucial for the repair and regeneration of dentin.
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