腺瘤性结肠息肉病基因对于发育中的大脑皮质正常生长和分化的早期事件是必需的。
Adenomatous polyposis coli is required for early events in the normal growth and differentiation of the developing cerebral cortex.
作者信息
Ivaniutsin Uladzislau, Chen Yijing, Mason John O, Price David J, Pratt Thomas
机构信息
Genes and Development Group, Centre for Integrative Physiology, School of Biomedical Sciences, The University of Edinburgh, Edinburgh, UK.
出版信息
Neural Dev. 2009 Jan 16;4:3. doi: 10.1186/1749-8104-4-3.
BACKGROUND
Adenomatous polyposis coli (Apc) is a large multifunctional protein known to be important for Wnt/beta-catenin signalling, cytoskeletal dynamics, and cell polarity. In the developing cerebral cortex, Apc is expressed in proliferating cells and its expression increases as cells migrate to the cortical plate. We examined the consequences of loss of Apc function for the early development of the cerebral cortex.
RESULTS
We used Emx1(Cre) to inactivate Apc specifically in proliferating cerebral cortical cells and their descendents starting from embryonic day 9.5. We observed reduction in the size of the mutant cerebral cortex, disruption to its organisation, and changes in the molecular identity of its cells. Loss of Apc leads to a decrease in the size of the proliferative pool, disrupted interkinetic nuclear migration, and increased apoptosis. beta-Catenin, pericentrin, and N-cadherin proteins no longer adopt their normal high concentration at the apical surface of the cerebral cortical ventricular zone, indicating that cell polarity is disrupted. Consistent with enhanced Wnt/beta-catenin signalling resulting from loss of Apc we found increased levels of TCF/LEF-dependent transcription and expression of endogenous Wnt/beta-catenin target genes (Axin2 (conductin), Lef1, and c-myc) in the mutant cerebral cortex. In the Apc mutant cerebral cortex the expression of transcription factors Foxg1, Pax6, Tbr1, and Tbr2 is drastically reduced compared to normal and many cells ectopically express Pax3, Wnt1, and Wt1 (but not Wnt2b, Wnt8b, Ptc, Gli1, Mash1, Olig2, or Islet1). This indicates that loss of Apc function causes cerebral cortical cells to lose their normal identity and redirect to fates normally found in more posterior-dorsal regions of the central nervous system.
CONCLUSION
Apc is required for multiple aspects of early cerebral cortical development, including the regulation of cell number, interkinetic nuclear migration, cell polarity, and cell type specification.
背景
腺瘤性结肠息肉病蛋白(Apc)是一种大型多功能蛋白,已知其对Wnt/β-连环蛋白信号传导、细胞骨架动力学和细胞极性很重要。在发育中的大脑皮层中,Apc在增殖细胞中表达,并且随着细胞迁移到皮质板其表达增加。我们研究了Apc功能丧失对大脑皮层早期发育的影响。
结果
我们使用Emx1(Cre)从胚胎第9.5天开始在增殖的大脑皮层细胞及其后代中特异性地使Apc失活。我们观察到突变型大脑皮层的大小减小,其组织结构破坏,以及其细胞的分子特性改变。Apc的缺失导致增殖池大小减小、核内有丝分裂迁移紊乱和细胞凋亡增加。β-连环蛋白、中心体蛋白和N-钙黏蛋白不再在大脑皮层脑室区的顶端表面呈现其正常的高浓度,表明细胞极性被破坏。与Apc缺失导致Wnt/β-连环蛋白信号增强一致,我们发现在突变型大脑皮层中TCF/LEF依赖的转录水平增加以及内源性Wnt/β-连环蛋白靶基因(Axin2(传导蛋白)、Lef1和c-myc)的表达增加。与正常情况相比,在Apc突变型大脑皮层中转录因子Foxg1、Pax6、Tbr1和Tbr2的表达大幅降低,并且许多细胞异位表达Pax3、Wnt1和Wt1(但不表达Wnt2b、Wnt8b、Ptc、Gli1、Mash1、Olig2或Islet1)。这表明Apc功能丧失导致大脑皮层细胞失去其正常特性并转向通常在中枢神经系统更靠后的背侧区域发现的命运。
结论
Apc是大脑皮层早期发育多个方面所必需的,包括细胞数量调节、核内有丝分裂迁移、细胞极性和细胞类型特化。
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