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FAM20B 催化的糖胺聚糖通过限制 FGFR2b 信号来控制小鼠牙齿数量。

FAM20B-catalyzed glycosaminoglycans control murine tooth number by restricting FGFR2b signaling.

机构信息

Southern Medical University Hospital of Stomatology, Guangzhou, 510280, Guangdong, China.

Department of Biomedical Sciences, Texas A&M University College of Dentistry, 3302 Gaston Ave, Dallas, TX, 75246, USA.

出版信息

BMC Biol. 2020 Jul 14;18(1):87. doi: 10.1186/s12915-020-00813-4.

DOI:10.1186/s12915-020-00813-4
PMID:32664967
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7359594/
Abstract

BACKGROUND

The formation of supernumerary teeth is an excellent model for studying the molecular mechanisms that control stem/progenitor cell homeostasis needed to generate a renewable source of replacement cells and tissues. Although multiple growth factors and transcriptional factors have been associated with supernumerary tooth formation, the regulatory inputs of extracellular matrix in this regenerative process remains poorly understood.

RESULTS

In this study, we present evidence that disrupting glycosaminoglycans (GAGs) in the dental epithelium of mice by inactivating FAM20B, a xylose kinase essential for GAG assembly, leads to supernumerary tooth formation in a pattern reminiscent of replacement teeth. The dental epithelial GAGs confine murine tooth number by restricting the homeostasis of Sox2(+) dental epithelial stem/progenitor cells in a non-autonomous manner. FAM20B-catalyzed GAGs regulate the cell fate of dental lamina by restricting FGFR2b signaling at the initial stage of tooth development to maintain a subtle balance between the renewal and differentiation of Sox2(+) cells. At the later cap stage, WNT signaling functions as a relay cue to facilitate the supernumerary tooth formation.

CONCLUSIONS

The novel mechanism we have characterized through which GAGs control the tooth number in mice may also be more broadly relevant for potentiating signaling interactions in other tissues during development and tissue homeostasis.

摘要

背景

额外牙的形成是研究控制干细胞/祖细胞稳态的分子机制的理想模型,这些机制对于产生可再生的细胞和组织替代源是必需的。尽管已经有多种生长因子和转录因子与额外牙的形成有关,但细胞外基质在这个再生过程中的调控输入仍知之甚少。

结果

在这项研究中,我们提供了证据表明,通过失活 FAM20B(一种对于糖胺聚糖组装至关重要的木酮糖激酶)使牙齿上皮中的糖胺聚糖(GAGs)失活,会导致小鼠出现类似于替换牙的额外牙形成模式。牙齿上皮中的 GAGs 通过非自主方式限制 Sox2(+)牙齿上皮干细胞/祖细胞的稳态来限制牙齿数量。FAM20B 催化的 GAGs 通过在牙齿发育的初始阶段限制 FGFR2b 信号来调节牙蕾的细胞命运,以维持 Sox2(+)细胞更新和分化之间的微妙平衡。在后期帽状期,WNT 信号作为一个接力信号,促进额外牙的形成。

结论

我们通过 GAGs 控制小鼠牙齿数量的这一新颖机制,可能在发育和组织稳态过程中,对于增强其他组织中信号相互作用也具有更广泛的意义。

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