Na Jie, Lykke-Andersen Karin, Torres Padilla Maria Elena, Zernicka-Goetz Magdalena
The Wellcome Trust/Cancer Research UK Gurdon Institute of Cancer and Developmental Biology and Department of Genetics, University of Cambridge, Cambridge, UK.
Dev Biol. 2007 Feb 1;302(1):40-9. doi: 10.1016/j.ydbio.2006.08.036. Epub 2006 Aug 22.
Wnt signaling is essential for the regulation of cell polarity and cell fate in the early embryogenesis of many animal species. Multiple Wnt genes and its pathway members are expressed in the mouse early embryo, raising the question whether they play any roles in preimplantation development. Dishevelled is an important transducer of divergent Wnt pathways. Here we show that three of the mouse Dishevelled proteins are not only expressed in oocytes and during preimplantation development, but also display distinct spatio-temporal localization. Interestingly, as embryos reach blastocyst stage, Dishevelled 2 becomes increasingly associated with cell membrane in trophectoderm cells, while at E4.5, Dishevelled 3 is highly enriched in the cytoplasm of ICM cells. These changes are coincident with an increase in the active form of beta-catenin, p120catenin transcription and decrease of Kaiso expression, indicating an upregulation of Wnt signaling activity before implantation. When Dishevelled-GFP fusion proteins are overexpressed in single blastomeres of the 4-cell stage embryo, the progeny of this cell show reduction in cell adhesiveness and a rounded shape at the blastocyst stage. This suggests that perturbing Dvl function interferes with cell-cell adhesion through the non-canonical Wnt pathway in blastocysts.
Wnt信号通路对于许多动物物种早期胚胎发育过程中细胞极性和细胞命运的调控至关重要。多个Wnt基因及其信号通路成员在小鼠早期胚胎中表达,这就引发了它们在着床前发育中是否发挥作用的问题。散乱蛋白(Dishevelled)是不同Wnt信号通路的重要转导分子。在此我们表明,小鼠的三种散乱蛋白不仅在卵母细胞和着床前发育过程中表达,而且呈现出不同的时空定位。有趣的是,随着胚胎发育到囊胚阶段,散乱蛋白2在滋养外胚层细胞中与细胞膜的关联越来越紧密,而在胚胎发育第4.5天,散乱蛋白3在着床前内细胞团(ICM)细胞的细胞质中高度富集。这些变化与β-连环蛋白的活性形式增加、p120连环蛋白转录以及Kaiso表达减少同时发生,表明着床前Wnt信号通路活性上调。当散乱蛋白-绿色荧光蛋白(Dishevelled-GFP)融合蛋白在4细胞期胚胎的单个卵裂球中过表达时,该细胞的后代在囊胚阶段表现出细胞黏附性降低和呈圆形。这表明扰乱Dvl功能会通过囊胚中的非经典Wnt信号通路干扰细胞间黏附。