Notch 信号通路调控鸡胚原始生殖细胞向基板和脊索的分化。
Notch signalling regulates the contribution of progenitor cells from the chick Hensen's node to the floor plate and notochord.
机构信息
Division of Cell and Developmental Biology, College of Life Sciences, University of Dundee, Dundee, Scotland, UK.
出版信息
Development. 2010 Feb;137(4):561-8. doi: 10.1242/dev.041608.
Abstract
Hensen's node of the chick embryo contains multipotent self-renewing progenitor cells that can contribute to either the floor plate or the notochord. Floor plate cells are a population of epithelial cells that lie at the ventral midline of the developing neural tube, whereas the notochord is a rod of axial mesoderm that lies directly beneath the floor plate. These two tissues serve as a source of a potent signalling morphogen, sonic hedgehog (Shh), which patterns the dorsoventral axis of the neural tube. We show, through both gain- and loss-of-function approaches, that Notch signalling promotes the contribution of chick axial progenitor cells to the floor plate and inhibits contribution to the notochord. Thus, we propose that Notch regulates the allocation of appropriate numbers of progenitor cells from Hensen's node of the chick embryo to the notochord and the floor plate.
摘要
鸡胚亨森氏结包含多能自我更新的祖细胞,这些细胞可以分化为基板细胞或脊索。基板细胞是位于发育中的神经管腹侧中线的一群上皮细胞,而脊索是位于基板下方的轴性中胚层的棒状结构。这两种组织是一种强有力的信号形态发生素—— sonic hedgehog (Shh) 的来源,它塑造了神经管的背腹轴。我们通过获得功能和丧失功能两种方法表明,Notch 信号促进了鸡轴向祖细胞对基板的贡献,并抑制了对脊索的贡献。因此,我们提出 Notch 调节适当数量的来自鸡胚亨森氏结的祖细胞分配到脊索和基板。
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