Arnés Mercedes, Casas Tintó Sergio
a Instituto Cajal, CSIC , Madrid , Spain.
J Neurogenet. 2017 Dec;31(4):216-222. doi: 10.1080/01677063.2017.1338696. Epub 2017 Jun 21.
Wnt signals regulate cell proliferation, migration and differentiation during development, as well as synaptic transmission and plasticity in the adult brain. Abnormal Wnt signaling is central to a number of brain pathologies. We review here, the significance of this pathway focused in the contribution of the most frequent alterations in receptors, secretable modulators and downstream targets in Alzheimer's disease (AD) and Glioblastoma (GBM). β-catenin and GSK3 levels are pivotal in the neurodegeneration associated to AD contributing to memory deficits, tau phosphorylation, increased β-amyloid production and modulation of Apolipoprotein E in the brain. In consequence, β-catenin and GSK3 are targets for potential treatments in AD. Also, Wnt pathway components and secreted molecules interfering with this signaling contribute to the progression of tumoral cells. Wnt pathway activation is a bad prognosis in brain cancer; however, mutations in WNT or Frizzled (FZD) genes do not account for the cases of GBM. Instead, recent studies indicate that epigenetic modifications contribute to the development of GBMs opening novel strategies to study GBM progression.
Wnt信号在发育过程中调节细胞增殖、迁移和分化,以及成人大脑中的突触传递和可塑性。异常的Wnt信号传导是许多脑部疾病的核心。我们在此综述该信号通路的重要性,重点关注阿尔茨海默病(AD)和胶质母细胞瘤(GBM)中受体、可分泌调节因子和下游靶点最常见改变的作用。β-连环蛋白和GSK3水平在与AD相关的神经退行性变中起关键作用,导致记忆缺陷、tau蛋白磷酸化、β-淀粉样蛋白生成增加以及大脑中载脂蛋白E的调节。因此,β-连环蛋白和GSK3是AD潜在治疗的靶点。此外,Wnt信号通路成分和干扰该信号传导的分泌分子促进肿瘤细胞的进展。Wnt信号通路激活在脑癌中预后不良;然而,WNT或卷曲蛋白(FZD)基因的突变并不能解释GBM的病例。相反,最近的研究表明,表观遗传修饰有助于GBM的发展,为研究GBM进展开辟了新的策略。
