Dong Zhiqiang, Wagle Mahendra, Guo Su
Department of Bioengineering and Therapeutic Sciences, Programs in Human Genetics and Biological Sciences, University of California San Francisco, CA, USA.
J Vis Exp. 2011 Apr 6(50):2594. doi: 10.3791/2594.
Precise patterns of division, migration and differentiation of neural progenitor cells are crucial for proper brain development and function. To understand the behavior of neural progenitor cells in the complex in vivo environment, time-lapse live imaging of neural progenitor cells in an intact brain is critically required. In this video, we exploit the unique features of zebrafish embryos to visualize the development of forebrain neural progenitor cells in vivo. We use electroporation to genetically and sparsely label individual neural progenitor cells. Briefly, DNA constructs coding for fluorescent markers were injected into the forebrain ventricle of 22 hours post fertilization (hpf) zebrafish embryos and electric pulses were delivered immediately. Six hours later, the electroporated zebrafish embryos were mounted with low melting point agarose in glass bottom culture dishes. Fluorescently labeled neural progenitor cells were then imaged for 36 hours with fixed intervals under a confocal microscope using water dipping objective lens. The present method provides a way to gain insights into the in vivo development of forebrain neural progenitor cells and can be applied to other parts of the central nervous system of the zebrafish embryo.
神经祖细胞精确的分裂、迁移和分化模式对于大脑的正常发育和功能至关重要。为了了解神经祖细胞在复杂的体内环境中的行为,对完整大脑中的神经祖细胞进行延时活体成像至关重要。在本视频中,我们利用斑马鱼胚胎的独特特征来可视化前脑神经祖细胞在体内的发育过程。我们使用电穿孔技术对单个神经祖细胞进行基因标记且标记细胞数量稀疏。简要来说,将编码荧光标记的DNA构建体注射到受精后22小时(hpf)的斑马鱼胚胎前脑脑室中,并立即施加电脉冲。6小时后,将经电穿孔的斑马鱼胚胎用低熔点琼脂糖固定在玻璃底培养皿中。然后,使用水浸物镜在共聚焦显微镜下以固定间隔对荧光标记的神经祖细胞进行36小时成像。本方法为深入了解前脑神经祖细胞的体内发育提供了一种途径,并且可应用于斑马鱼胚胎中枢神经系统的其他部位。