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视网膜发育中的神经分化与突触形成

Neural differentiation and synaptogenesis in retinal development.

作者信息

Fan Wen-Juan, Li Xue, Yao Huan-Ling, Deng Jie-Xin, Liu Hong-Liang, Cui Zhan-Jun, Wang Qiang, Wu Ping, Deng Jin-Bo

机构信息

Institute of Neurobiology, School of Life Science, Henan University, Kaifeng, Henan Province, China.

出版信息

Neural Regen Res. 2016 Feb;11(2):312-8. doi: 10.4103/1673-5374.177743.

DOI:10.4103/1673-5374.177743
PMID:27073386
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4810997/
Abstract

To investigate the pattern of neural differentiation and synaptogenesis in the mouse retina, immunolabeling, BrdU assay and transmission electron microscopy were used. We show that the neuroblastic cell layer is the germinal zone for neural differentiation and retinal lamination. Ganglion cells differentiated initially at embryonic day 13 (E13), and at E18 horizontal cells appeared in the neuroblastic cell layer. Neural stem cells in the outer neuroblastic cell layer differentiated into photoreceptor cells as early as postnatal day 0 (P0), and neural stem cells in the inner neuroblastic cell layer differentiated into bipolar cells at P7. Synapses in the retina were mainly located in the outer and inner plexiform layers. At P7, synaptophysin immunostaining appeared in presynaptic terminals in the outer and inner plexiform layers with button-like structures. After P14, presynaptic buttons were concentrated in outer and inner plexiform layers with strong staining. These data indicate that neural differentiation and synaptogenesis in the retina play important roles in the formation of retinal neural circuitry. Our study showed that the period before P14, especially between P0 and P14, represents a critical period during retinal development. Mouse eye opening occurs during that period, suggesting that cell differentiation and synaptic formation lead to the attainment of visual function.

摘要

为研究小鼠视网膜中神经分化和突触形成的模式,采用了免疫标记、BrdU检测和透射电子显微镜技术。我们发现神经母细胞层是神经分化和视网膜分层的生发区。神经节细胞最初在胚胎第13天(E13)分化,在E18时水平细胞出现在神经母细胞层。外神经母细胞层中的神经干细胞早在出生后第0天(P0)就分化为光感受器细胞,内神经母细胞层中的神经干细胞在P7时分化为双极细胞。视网膜中的突触主要位于外网状层和内网状层。在P7时,突触素免疫染色出现在外网状层和内网状层中具有纽扣样结构的突触前终末。P14后,突触前纽扣集中在外网状层和内网状层,染色强烈。这些数据表明视网膜中的神经分化和突触形成在视网膜神经回路的形成中起重要作用。我们的研究表明,P14之前的时期,尤其是P0到P14之间,是视网膜发育的关键时期。小鼠在这个时期睁眼,表明细胞分化和突触形成导致视觉功能的获得。

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