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部分视神经损伤后轴突运输的恢复与体内次级视网膜神经节细胞死亡有关。

Recovery of axonal transport after partial optic nerve damage is associated with secondary retinal ganglion cell death in vivo.

机构信息

Institute of Medical Psychology, Otto-von-Guericke University of Magdeburg, Magdeburg, Germany.

出版信息

Invest Ophthalmol Vis Sci. 2012 Mar 15;53(3):1460-6. doi: 10.1167/iovs.11-8306.

DOI:10.1167/iovs.11-8306
PMID:22297499
Abstract

PURPOSE

Traumatic injury of the optic nerve leads to retrograde cell death of retinal ganglion cells (RGCs) but usually a certain percentage of neurons survive. It has been suggested that recovery of axonal transport is beneficial for survival. The present study was therefore performed to provide a synopsis of the temporal pattern of axonal transport decline/recovery and the viability of RGCs after optic nerve crush (ONC).

METHODS

Fluorescent dyes were injected into the superior colliculus to retrogradely label RGCs. Axonal transport kinetics into the RGCs was visualized with in vivo confocal neuroimaging (ICON) in uninjured rats and in rats which had mild or moderate ONC. Red fluorescent beads were injected on day 2 post-ONC and green beads on day 7.

RESULTS

At 2 to 4 days post-ONC significant axonal transport was detected, but within 1 week the transport of the fluorescent beads was decreased. Interestingly, during post-ONC week 3 the axon transport slowly recovered. However, despite this recovery, retrograde cell death rate continued and was even increased in a "second wave" of cell death in those neurons that displayed axon transport recovery.

CONCLUSIONS

After damage many surviving RGCs lose their axon transport, but after approximately 3 weeks, this transport recovers again, a sign of intrinsic axon repair. Contrary to the prediction, axon transport recovery is not associated with better cell survival but rather with a second wave of cell death. Thus, the accelerated cell death associated with recovery of axon transport suggests the existence of a late retrograde cell death signal.

摘要

目的

视神经创伤会导致视网膜神经节细胞(RGC)逆行性细胞死亡,但通常有一定比例的神经元存活。有人认为轴突运输的恢复对存活有益。因此,本研究旨在概述视神经挤压(ONC)后轴突运输下降/恢复和 RGC 存活的时间模式。

方法

将荧光染料注入上丘以逆行标记 RGC。用活体共聚焦神经成像(ICON)在未受伤的大鼠和轻度或中度 ONC 的大鼠中观察轴突运输动力学。在 ONC 后第 2 天注射红色荧光珠,第 7 天注射绿色荧光珠。

结果

在 ONC 后 2 至 4 天检测到明显的轴突运输,但在 1 周内荧光珠的运输减少。有趣的是,在 ONC 后第 3 周,轴突运输缓慢恢复。然而,尽管有这种恢复,逆行性细胞死亡率仍在继续,并且在显示轴突运输恢复的神经元中甚至增加了“第二波”细胞死亡。

结论

在损伤后,许多存活的 RGC 会失去其轴突运输,但大约 3 周后,这种运输再次恢复,这是内在轴突修复的迹象。与预测相反,轴突运输的恢复与更好的细胞存活无关,而是与第二波细胞死亡有关。因此,与轴突运输恢复相关的加速细胞死亡表明存在晚期逆行性细胞死亡信号。

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