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生理性Notch信号通路促进发育中的外周和中枢神经系统中的神经胶质生成。

Physiological Notch signaling promotes gliogenesis in the developing peripheral and central nervous systems.

作者信息

Taylor Merritt K, Yeager Kelly, Morrison Sean J

机构信息

Howard Hughes Medical Institute, Life Sciences Institute, Department of Internal Medicine, and Center for Stem Cell Biology, University of Michigan, Ann Arbor, MI 48109-2216, USA.

出版信息

Development. 2007 Jul;134(13):2435-47. doi: 10.1242/dev.005520. Epub 2007 May 30.

DOI:10.1242/dev.005520
PMID:17537790
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2653864/
Abstract

Constitutive activation of the Notch pathway can promote gliogenesis by peripheral (PNS) and central (CNS) nervous system progenitors. This raises the question of whether physiological Notch signaling regulates gliogenesis in vivo. To test this, we conditionally deleted Rbpsuh (Rbpj) from mouse PNS or CNS progenitors using Wnt1-Cre or Nestin-Cre. Rbpsuh encodes a DNA-binding protein (RBP/J) that is required for canonical signaling by all Notch receptors. In most regions of the developing PNS and spinal cord, Rbpsuh deletion caused only mild defects in neurogenesis, but severe defects in gliogenesis. These resulted from defects in glial specification or differentiation, not premature depletion of neural progenitors, because we were able to culture undifferentiated progenitors from the PNS and spinal cord despite their failure to form glia in vivo. In spinal cord progenitors, Rbpsuh was required to maintain Sox9 expression during gliogenesis, demonstrating that Notch signaling promotes the expression of a glial-specification gene. These results demonstrate that physiological Notch signaling is required for gliogenesis in vivo, independent of the role of Notch in the maintenance of undifferentiated neural progenitors.

摘要

Notch信号通路的组成性激活可促进外周(PNS)和中枢(CNS)神经系统祖细胞发生神经胶质生成。这就提出了一个问题,即生理状态下的Notch信号传导是否在体内调节神经胶质生成。为了验证这一点,我们使用Wnt1-Cre或Nestin-Cre从小鼠PNS或CNS祖细胞中条件性删除Rbpsuh(Rbpj)。Rbpsuh编码一种DNA结合蛋白(RBP/J),它是所有Notch受体进行典型信号传导所必需的。在发育中的PNS和脊髓的大多数区域,Rbpsuh的缺失仅在神经发生中引起轻微缺陷,但在神经胶质生成中导致严重缺陷。这些缺陷是由神经胶质细胞特化或分化的缺陷引起的,而不是神经祖细胞的过早耗竭,因为尽管它们在体内无法形成神经胶质细胞,但我们仍能够从PNS和脊髓中培养出未分化的祖细胞。在脊髓祖细胞中,Rbpsuh是神经胶质生成过程中维持Sox9表达所必需的,这表明Notch信号传导促进了神经胶质细胞特化基因的表达。这些结果表明,生理状态下的Notch信号传导在体内神经胶质生成中是必需的,与Notch在维持未分化神经祖细胞中的作用无关。

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本文引用的文献

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Notch1 signaling influences v2 interneuron and motor neuron development in the spinal cord.Notch1信号通路影响脊髓中V2中间神经元和运动神经元的发育。
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Hes1 and Hes5 regulate the development of the cranial and spinal nerve systems.Hes1和Hes5调节颅神经和脊髓神经系统的发育。
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Bmi-1 promotes neural stem cell self-renewal and neural development but not mouse growth and survival by repressing the p16Ink4a and p19Arf senescence pathways.Bmi-1通过抑制p16Ink4a和p19Arf衰老途径来促进神经干细胞自我更新和神经发育,但不影响小鼠的生长和存活。
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Brain lipid-binding protein is a direct target of Notch signaling in radial glial cells.脑脂质结合蛋白是放射状胶质细胞中Notch信号通路的直接靶点。
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Jagged1-dependent Notch signaling is dispensable for hematopoietic stem cell self-renewal and differentiation.Notch信号通路依赖的Jagged1对于造血干细胞的自我更新和分化并非必需。
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Neural crest stem cells undergo multilineage differentiation in developing peripheral nerves to generate endoneurial fibroblasts in addition to Schwann cells.神经嵴干细胞在发育中的周围神经中经历多谱系分化,除了生成施万细胞外,还能产生神经内膜成纤维细胞。
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Hes genes regulate size, shape and histogenesis of the nervous system by control of the timing of neural stem cell differentiation.Hes基因通过控制神经干细胞分化的时间来调节神经系统的大小、形状和组织发生。
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Genes Dev. 2004 Oct 15;18(20):2469-73. doi: 10.1101/gad.1239204. Epub 2004 Oct 1.

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