Sprouty基因通过上皮-间充质FGF信号的双向拮抗作用控制间隙牙的发育。

Sprouty genes control diastema tooth development via bidirectional antagonism of epithelial-mesenchymal FGF signaling.

作者信息

Klein Ophir D, Minowada George, Peterkova Renata, Kangas Aapo, Yu Benjamin D, Lesot Herve, Peterka Miroslav, Jernvall Jukka, Martin Gail R

机构信息

Department of Anatomy and Program in Developmental Biology, School of Medicine, University of California, San Francisco, San Francisco, California 94143,USA.

出版信息

Dev Cell. 2006 Aug;11(2):181-90. doi: 10.1016/j.devcel.2006.05.014.

DOI:10.1016/j.devcel.2006.05.014

PMID:16890158

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2847684/

Abstract

Unlike humans, who have a continuous row of teeth, mice have only molars and incisors separated by a toothless region called a diastema. Although tooth buds form in the embryonic diastema, they regress and do not develop into teeth. Here, we identify members of the Sprouty (Spry) family, which encode negative feedback regulators of fibroblast growth factor (FGF) and other receptor tyrosine kinase signaling, as genes that repress diastema tooth development. We show that different Sprouty genes are deployed in different tissue compartments--Spry2 in epithelium and Spry4 in mesenchyme--to prevent diastema tooth formation. We provide genetic evidence that they function to ensure that diastema tooth buds are refractory to signaling via FGF ligands that are present in the region and thus prevent these buds from engaging in the FGF-mediated bidirectional signaling between epithelium and mesenchyme that normally sustains tooth development.

摘要

与人类拥有连续一排牙齿不同，小鼠只有臼齿和门牙，它们之间被一个称为齿间隙的无牙区域隔开。尽管牙胚在胚胎期的齿间隙中形成，但它们会退化，不会发育成牙齿。在这里，我们鉴定出Sprouty（Spry）家族的成员，它们编码成纤维细胞生长因子（FGF）和其他受体酪氨酸激酶信号的负反馈调节因子，是抑制齿间隙牙齿发育的基因。我们表明，不同的Sprouty基因在不同的组织区室中发挥作用——上皮中的Spry2和间充质中的Spry4——以防止齿间隙牙齿形成。我们提供了遗传学证据，证明它们的功能是确保齿间隙牙胚对该区域存在的FGF配体的信号传导具有抗性，从而防止这些牙胚参与上皮和间充质之间通常维持牙齿发育的FGF介导的双向信号传导。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fcc6/2847684/222a906a0930/nihms170022f1.jpg

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