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Trps1 转录因子调节牙齿组织矿化和牙齿器官细胞增殖。

Trps1 transcription factor regulates mineralization of dental tissues and proliferation of tooth organ cells.

机构信息

Institute of Oral Health Research, School of Dentistry, University of Alabama at Birmingham, Birmingham, AL, USA.

Center for Craniofacial Regeneration, Dept. of Oral Biology, McGowan Institute for Regenerative Medicine, University of Pittsburgh School of Dental Medicine, Pittsburgh, PA, USA.

出版信息

Mol Genet Metab. 2019 Apr;126(4):504-512. doi: 10.1016/j.ymgme.2019.01.014. Epub 2019 Jan 23.

Abstract

Mutations of the TRPS1 gene cause trichorhinophalangeal syndrome (TRPS), a skeletal dysplasia with dental abnormalities. TRPS dental phenotypes suggest that TRPS1 regulates multiple aspects of odontogenesis, including the tooth number and size. Previous studies delineating Trps1 expression throughout embryonic tooth development in mice detected strong Trps1 expression in dental mesenchyme, preodontoblasts, and dental follicles, suggesting that TRPS dental phenotypes result from abnormalities in early developmental processes. In this study, Trps1 and Trps1 mice were analyzed to determine consequences of Trps1 deficiency on odontogenesis. We focused on the aspects of tooth formation that are disturbed in TRPS and on potential molecular abnormalities underlying TRPS dental phenotypes. Microcomputed tomography analyses of molars were used to determine tooth size, crown shape, and mineralization of dental tissues. These analyses uncovered that disruption of one Trps1 allele is sufficient to impair mineralization of dentin in both male and female mice. Enamel mineral density was decreased only in males, while mineralization of the root dental tissues was decreased only in females. In addition, significantly smaller teeth were detected in Trps1 females. Histomorphometric analyses of tooth organs showed reduced anterior-posterior diameter in Trps1 mice. BrdU-incorporation assay detected reduced proliferation of mesenchymal and epithelial cells in Trps1 tooth organs. Immunohistochemistry for Runx2 and Osx osteogenic transcription factors revealed changes in their spatial distribution in Trps1 tooth organs and uncovered cell-type specific requirements of Trps1 for Osx expression. In conclusion, this study has demonstrated that Trps1 is a positive regulator of cell proliferation in both dental mesenchyme and epithelium, suggesting that the microdontia in TRPS is likely due to decreased cell proliferation in developing tooth organs. Furthermore, the reduced mineralization observed in Trps1 mice may provide some explanation for the extensive dental caries reported in TRPS patients.

摘要

TRPS1 基因突变导致 trichorhinophalangeal 综合征(TRPS),这是一种骨骼发育不良伴牙齿异常。TRPS 的牙齿表型表明 TRPS1 调节牙发生的多个方面,包括牙齿数量和大小。以前的研究在小鼠胚胎牙齿发育过程中描绘了 Trps1 的表达,发现 Trps1 在牙间质、前期成牙本质细胞和牙囊中有强烈表达,表明 TRPS 牙齿表型是由于早期发育过程中的异常。在这项研究中,分析了 Trps1 和 Trps1 小鼠,以确定 Trps1 缺乏对牙发生的影响。我们专注于 TRPS 中受干扰的牙齿形成方面以及 TRPS 牙齿表型潜在的分子异常。使用磨牙的微计算机断层扫描分析来确定牙齿大小、牙冠形状和牙组织的矿化。这些分析表明,破坏一个 Trps1 等位基因足以损害雄性和雌性小鼠的牙本质矿化。只有雄性的牙釉质矿化密度降低,而只有雌性的牙根牙组织矿化降低。此外,在 Trps1 雌性中检测到牙齿明显变小。牙器官的组织形态计量学分析表明,Trps1 小鼠的前后直径减小。BrdU 掺入试验检测到 Trps1 牙器官中间充质和上皮细胞增殖减少。Runx2 和 Osx 成骨转录因子的免疫组织化学显示,它们在 Trps1 牙器官中的空间分布发生变化,并揭示了 Trps1 对 Osx 表达的细胞类型特异性要求。总之,这项研究表明 Trps1 是牙间质和上皮细胞增殖的正调节剂,提示 TRPS 中的小牙可能是由于牙器官发育过程中细胞增殖减少所致。此外,Trps1 小鼠中观察到的矿化减少可能为 TRPS 患者广泛报告的龋齿提供了一些解释。

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