Sausedo R A, Schoenwolf G C
Department of Neurobiology and Anatomy, University of Utah School of Medicine, Salt Lake City 84132.
Anat Rec. 1994 May;239(1):103-12. doi: 10.1002/ar.1092390112.
Formation and extension of the notochord (i.e., notogenesis) is one of the earliest and most obvious events of axis development in vertebrate embryos. In birds and mammals, prospective notochord cells arise from Hensen's node and come to lie beneath the midline of the neural plate. Throughout the period of neurulation, the notochord retains its close spatial relationship with the developing neural tube and undergoes rapid extension in concert with the overlying neuroepithelium.
In the present study, we examined notochord development quantitatively in mouse embryos. C57BL/6 mouse embryos were collected at 8, 8.5, 9, 9.5, and 10 days of gestation. They were then embedded in paraffin and sectioned transversely. Serial sections from 21 embryos were stained with Schiff's reagent according to the Feulgen-Rossenbeck procedure and used for quantitative analyses of notochord extension.
Quantitative analyses revealed that extension of the notochord involves cell division within the notochord proper and cell rearrangement within the notochordal plate (the immediate precursor of the notochord). In addition, extension of the notochord involves cell accretion, that is, the addition of cells to the notochord's caudal end, a process that involves considerable cell rearrangement at the notochordal plate-node interface.
Extension of the mouse notochord occurs similarly to that described previously for birds (Sausedo and Schoenwolf, 1993 Anat. Rec. 237:58-70). That is, in both birds (i.e., quail and chick) and mouse embryos, notochord extension involves cell division, cell rearrangement, and cell accretion. Thus higher vertebrates utilize similar morphogenetic movements to effect notogenesis.
脊索的形成与延伸(即脊索发生)是脊椎动物胚胎轴发育最早且最明显的事件之一。在鸟类和哺乳动物中,预期的脊索细胞起源于亨森结,并位于神经板中线下方。在整个神经胚形成期,脊索与发育中的神经管保持着紧密的空间关系,并与覆盖其上的神经上皮同步快速延伸。
在本研究中,我们对小鼠胚胎中的脊索发育进行了定量研究。在妊娠第8、8.5、9、9.5和10天收集C57BL/6小鼠胚胎。然后将它们包埋在石蜡中并横向切片。根据福尔根 - 罗森贝克程序,对21个胚胎的连续切片用席夫试剂染色,并用于脊索延伸的定量分析。
定量分析表明,脊索的延伸涉及脊索本身内的细胞分裂以及脊索板(脊索的直接前体)内的细胞重排。此外,脊索的延伸涉及细胞增生,即细胞添加到脊索的尾端,这一过程在脊索板 - 结界面涉及相当多的细胞重排。
小鼠脊索的延伸方式与先前描述的鸟类类似(Sausedo和Schoenwolf,1993年,《解剖学记录》237:58 - 70)。也就是说,在鸟类(即鹌鹑和鸡)和小鼠胚胎中,脊索延伸都涉及细胞分裂、细胞重排和细胞增生。因此,高等脊椎动物利用相似的形态发生运动来实现脊索发生。
