Institute of Biotechnology, University of Helsinki, Finland.
Dev Biol. 2011 Sep 1;357(1):259-68. doi: 10.1016/j.ydbio.2011.06.029. Epub 2011 Jun 26.
β-catenin has well-established functions in cell growth and differentiation as part of the Wnt signaling pathway and in regulation of cellular adhesion with E-cadherin. Here we studied its significance in midbrain development by temporally controlled deletion of β-catenin allowing simultaneous analysis of complete (β-cat-null) and partial (β-cat-low) loss-of-function phenotypes in progenitor cells. β-cat-null cells did not contain centrosomes or a microtubule network and were unpolarized forming delaminated bulges. β-cat-low cells displayed defects in the orientation of the mitotic spindle, increased asymmetric cell divisions and premature differentiation in absence of alterations in polarity or adhesion. The spindle defect was associated with decreased centrosomal S33/S34/T41 phosphorylated β-catenin (p-β-cat) and centrosomal and microtubule defects. Interestingly, neural progenitor cells in mice expressing only unphosphorylatable β-catenin share several phenotypes with β-catenin loss-of-function mice with defects in microtubules and polarity. The results demonstrate a novel function for p-β-cat in maintaining neuroepithelial integrity and suggest that centrosomal p-ß-cat is required to maintain symmetric cleavages and polarity in neural progenitors.
β-连环蛋白作为 Wnt 信号通路的一部分,在细胞生长和分化以及与 E-钙黏蛋白的细胞黏附调节中具有明确的功能。在这里,我们通过对β-连环蛋白进行时间控制的缺失来研究其在中脑发育中的意义,从而允许同时分析祖细胞中的完全(β-cat-null)和部分(β-cat-low)功能丧失表型。β-cat-null 细胞不含中心体或微管网络,并且没有极性,形成脱层的隆起。β-cat-low 细胞显示出有丝分裂纺锤体方向的缺陷,增加了不对称细胞分裂,并在没有极性或黏附改变的情况下过早分化。纺锤体缺陷与中心体 S33/S34/T41 磷酸化β-连环蛋白(p-β-cat)和中心体及微管缺陷有关。有趣的是,表达仅不可磷酸化β-连环蛋白的小鼠神经祖细胞与微管和极性缺陷的β-连环蛋白功能丧失小鼠具有一些共同的表型。结果表明 p-β-cat 在维持神经上皮完整性方面具有新的功能,并表明中心体 p-ß-cat 对于维持神经祖细胞中的对称分裂和极性是必需的。
