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Wnt 信号在心脏瓣膜发育和成骨基因诱导中的作用。

Wnt signaling in heart valve development and osteogenic gene induction.

机构信息

Division of Molecular Cardiovascular Biology, Cincinnati Children's Medical Center, ML 7020, 240 Albert Sabin Way, Cincinnati, OH 45229, USA.

出版信息

Dev Biol. 2010 Feb 15;338(2):127-35. doi: 10.1016/j.ydbio.2009.11.030. Epub 2009 Dec 1.

DOI:10.1016/j.ydbio.2009.11.030
PMID:19961844
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2814915/
Abstract

Wnt signaling mediated by beta-catenin has been implicated in early endocardial cushion development, but its roles in later stages of heart valve maturation and homeostasis have not been identified. Multiple Wnt ligands and pathway genes are differentially expressed during heart valve development. At E12.5, Wnt2 is expressed in cushion mesenchyme, whereas Wnt4 and Wnt9b are predominant in overlying endothelial cells. At E17.5, both Wnt3a and Wnt7b are expressed in the remodeling atrioventricular (AV) and semilunar valves. In addition, the TOPGAL Wnt reporter transgene is active throughout the developing AV and semilunar valves at E16.5, with more localized expression in the stratified valve leaflets after birth. In chicken embryo aortic valves, genes characteristic of osteogenic cell lineages including periostin, osteonectin, and Id2 are expressed specifically in the collagen-rich fibrosa layer at E14. Treatment of E14 aortic valve interstitial cells (VICs) in culture with osteogenic media results in increased expression of multiple genes associated with bone formation. Treatment of VIC with Wnt3a leads to nuclear localization of beta-catenin and induction of periostin and matrix gla protein but does not induce genes associated with later stages of osteogenesis. Together, these studies provide evidence for Wnt signaling as a regulator of endocardial cushion maturation as well as valve leaflet stratification, homeostasis, and pathogenesis.

摘要

β-连环蛋白介导的 Wnt 信号在心脏心内膜垫早期发育中起作用,但它在心脏瓣膜成熟和稳态的后期阶段的作用尚未确定。多种 Wnt 配体和途径基因在心脏瓣膜发育过程中差异表达。在 E12.5,Wnt2 在心内膜垫间质中表达,而 Wnt4 和 Wnt9b 在覆盖的内皮细胞中占优势。在 E17.5,Wnt3a 和 Wnt7b 均在重塑的房室(AV)和半月瓣中表达。此外,TOPGAL Wnt 报告基因在 E16.5 时在发育中的 AV 和半月瓣中活跃,出生后在分层瓣膜小叶中有更局部的表达。在鸡胚主动脉瓣中,包括骨调蛋白、骨粘连蛋白和 Id2 在内的成骨细胞谱系特征性基因在 E14 时特异性表达在富含胶原蛋白的纤维层中。在培养中用成骨培养基处理 E14 主动脉瓣间质细胞(VIC)会导致与骨形成相关的多个基因表达增加。用 Wnt3a 处理 VIC 会导致β-连环蛋白的核定位以及骨调蛋白和基质 Gla 蛋白的诱导,但不会诱导与成骨后期阶段相关的基因。总之,这些研究为 Wnt 信号作为心内膜垫成熟以及瓣膜小叶分层、稳态和发病机制的调节剂提供了证据。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/43f3/2814915/08c4def4ffd1/nihms163452f8.jpg
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Circ Res. 2009 Sep 11;105(6):565-74. doi: 10.1161/CIRCRESAHA.109.196469. Epub 2009 Aug 6.
3
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4
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Differentiation. 2025 Mar-Apr;142:100820. doi: 10.1016/j.diff.2024.100820. Epub 2024 Nov 22.
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