陈琦 杨骐昌 宋晓峰 韩平.Wnt信号转导通路与神经发育研究进展[J].,2015,15(15):2978-2980 |
Wnt信号转导通路与神经发育研究进展 |
Multiple Role of Wnt Signal Pathway in Nervous SystemDevelopment |
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DOI: |
中文关键词: Wnt/beta-catenin Wnt/Ryk 神经发育 信号途径 |
英文关键词: Wnt/beta-catenin Wnt/Ryk Nervous systemdevelopment Signal pathway |
基金项目:国家自然科学基金项目(81270700,61171191) |
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中文摘要: |
Wnt 蛋白是一类分泌型糖蛋白家族,Wnt信号蛋白与细胞表面的多种受体相互作用,参与诸多生命过程。对神经系统发育的
研究表明,Wnt信号通路在神经发生,神经祖细胞增值、分化,神经干细胞的自我更新,轴突导向等过程中起重要调控作用。多项研
究已经证实,Wnt通路失调与诸多神经系统疾病有密切关系。Wnt信号通路的突变或异常,将会引起神经系统发育缺陷。然而,对
Wnt非经典信号通路的研究,尤其是新受体Ryk 的调控作用的认识迄今仍不全面。根据国内外相关研究,阐述了经典Wnt信号
通路Wnt/beta-catenin途径的同时也对Wnt/Ryk 非经典信号途径这一研究新领域做了讨论。在非经典信号通路中,Ryk-ICD 的剪接
对于前体细胞的神经分化起重要作用。本文分析了Wnt/beta-catenin 和Wnt/Ryk 信号通路在神经发育中的作用,有助于深入理解神
经发育过程中Wnt信号通路的作用机制。然而,Ryk-ICD引导因子、分子机制等问题仍待进一步研究,而这将有利于理解神经干
细胞分化机理。 |
英文摘要: |
The wnt families are the type of glycocalyx .The interactions of Wnt families and their receptors are involved in many
aspects of biological processes. The Wnt signal pathway is a key regulators for neurogenesis, proliferation and differentiation of neural
progenitor cells, the self-renewal of neural stem cell, the establishment of axon tracts. Many nerve diseases could be occurred with Wnt
pathways disorders. Mutations in the Wnt pathway transduction cascade cause a variety of neurological deficits. And yet the non canonical
Wnt signals, especially the regulation function of new receptor Ryk, are not clear. Ryk-ICD plays an important role in precursor cells
differentiation process. Here, we analyze the role of Wnt pathway during nervous system development. Influences on the pathways of
canonical Wnt/ 茁-catenin and non canonical Wnt/Ryk signal are overviewed. However, such problems as Ryk - ICD leading factor,
molecular mechanismremains to be further studied, and this will be conducive to understand the mechanismof neural stem cells differentiation. |
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