State Key Laboratory of Brain and Cognitive Sciences, Institute of Biophysics, Chinese Academy of Sciences, 15 Da-tun Road, Beijing 100101, China; University of Chinese Academy of Sciences, No. 19A Yuquan Road, Beijing 100049, China.
Neuroscience. 2013 Oct 10;250:798-808. doi: 10.1016/j.neuroscience.2013.06.013. Epub 2013 Jun 20.
In the adult rabbit and mouse retina, about 30% of the ON-OFF direction selective ganglion cells (DSGCs) are coupled via gap junctions. In early postnatal rabbit retinas, a greater proportion of morphological ON-OFF DSGCs shows coupling with a larger number of nearby somas. It is not clear whether the coupled ON-OFF DSGCs belong to the same subtype, or how coupling patterns change during development. In this study, we showed that in adult mouse retinas, all coupled ON-OFF DSGCs exhibited preferred directions (PDs) to superior, and this pattern emerged at postnatal day 15 (P15). At P13, the ON-OFF DSGCs with PDs to posterior were also coupled. Every ON-OFF DSGC in every subtype injected at P12 exhibited coupling. Therefore, a rapid decoupling process takes place in DSGCs around eye opening. Light deprivation delayed but did not halt the decoupling process. By using a transgenic mouse line in which green fluorescent protein (GFP) is selectively expressed in DSGCs with PDs to posterior and by performing in situ hybridization of cadherin-6, a marker for the DSGCs with PDs to superior and inferior, we showed that heterologous coupling existed between DSGCs with PDs to anterior and posterior till P12, but this heterologous coupling never spread to DSGCs positive for cadherin-6.
在成年兔和鼠的视网膜中,约 30%的 ON-OFF 方向选择性神经节细胞(DSGCs)通过缝隙连接相互耦联。在早期新生兔视网膜中,更多的形态学 ON-OFF DSGCs 与更多的邻近体相互耦联。目前尚不清楚相互耦联的 ON-OFF DSGCs 是否属于同一亚型,以及在发育过程中耦联模式如何变化。在这项研究中,我们表明在成年鼠视网膜中,所有相互耦联的 ON-OFF DSGCs 均表现出对上方的优先方向(PDs),这种模式在出生后第 15 天(P15)出现。在 P13 时,具有 PD 至后方的 ON-OFF DSGCs 也相互耦联。在 P12 时注射的每一个 ON-OFF DSGC 都属于每一种亚型,并且都表现出耦联。因此,在眼睛睁开前后,DSGCs 中发生了快速解耦过程。光剥夺延迟但并未阻止解耦过程。通过使用一种转基因鼠系,其中绿色荧光蛋白(GFP)选择性地在 PD 至后方的 DSGCs 中表达,并通过对 PD 至上方和下方的 DSGCs 的钙黏蛋白-6 进行原位杂交,我们表明 PD 至前后的 DSGCs 之间存在异源耦联,直到 P12,但这种异源耦联从未传播到钙黏蛋白-6 阳性的 DSGCs。
