DNA methylation and cerebellar development, the regulation of Notch and Shh pathway

M. Yan, X. Wang, J. Deng, L. Wang, Z. Cui, J. Deng, Z. Shi
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引用次数: 7

Abstract

Abstract Our purpose is to elucidate the roles of some molecules and DNA methylation in cerebellar development. Immunocytochemistry was performed to investigate the expression of activated Notch1 and Sonic Hedgehog (Shh), as well as DNA methylation during cerebellar development at various ages. Notch1 could be expressed in neural stem cells, newborn neurons and Purkinje cells during cerebellar development. However, Shh could be expressed mainly in developing radial glia or Bergmann cells specifically. DNA methylation was present during cerebellar development, mainly in neural progenitor cells and developing granule cells. The formation and maturation of both Purkinje cells and Bergmann cells are required for the differentiation and migration of granule cells which were bound to DNA methylation. DNA methylation and Shh and Notch signaling pathways function cooperatively during cerebellar development. The Notch pathway mainly contributes to the differentiation of Purkinje cells, but Shh is often involved in the development of Bergmann cells. DNA methylation is necessary for the differentiation and migration of granule cells. The expression of Notch1 and Shh in Purkinje cells and Bergmann cells, following the initiation of DNA methylation in granule cells, indicates that DNA methylation is regulated by Notch and Shh pathways during cerebellar development.
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DNA甲基化与小脑发育,Notch和Shh通路的调控
摘要我们的目的是阐明一些分子和DNA甲基化在小脑发育中的作用。免疫细胞化学研究了激活的Notch1和Sonic Hedgehog (Shh)的表达,以及不同年龄小脑发育过程中的DNA甲基化。在小脑发育过程中,Notch1可在神经干细胞、新生神经元和浦肯野细胞中表达。然而,Shh主要在发育中的放射状胶质细胞或伯格曼细胞中特异性表达。DNA甲基化在小脑发育过程中存在,主要发生在神经祖细胞和发育中的颗粒细胞中。与DNA甲基化结合的颗粒细胞的分化和迁移需要浦肯野细胞和伯格曼细胞的形成和成熟。DNA甲基化、Shh和Notch信号通路在小脑发育过程中协同作用。Notch通路主要参与浦肯野细胞的分化,但Shh也经常参与伯格曼细胞的发育。DNA甲基化是颗粒细胞分化和迁移的必要条件。在颗粒细胞中DNA甲基化启动后,浦肯野细胞和伯格曼细胞中Notch1和Shh的表达表明,DNA甲基化在小脑发育过程中受到Notch和Shh通路的调节。
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来源期刊
Italian Journal of Zoology
Italian Journal of Zoology 生物-动物学
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6-12 weeks
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