Sema-3A 可间接破坏控制损伤后金鱼视神经的再生过程。

Sema-3A indirectly disrupts the regeneration process of goldfish optic nerve after controlled injury.

机构信息

Departments of Neurobiology, George S. Wise, Faculty of Life Sciences, Tel Aviv University, Tel Aviv, 69978, Israel.

出版信息

Graefes Arch Clin Exp Ophthalmol. 2010 Oct;248(10):1423-35. doi: 10.1007/s00417-010-1377-y. Epub 2010 May 7.

DOI:10.1007/s00417-010-1377-y

PMID:20449604

Abstract

BACKGROUND

Neurons of adult mammalian CNS are prevented from regenerating injured axons due to formation of a non-permissive environment. The retinal ganglion cells (RGC), which are part of the CNS, share this characteristic. In sharp contrast, the RGC of lower vertebrates, such as fish, are capable of re-growing injured optic nerve axons, and achieve, through a complex multi-factorial process, functional vision after injury. Semaphorin-3A (sema-3A), a member of the class 3 semaphorins known for its repellent and apoptotic activities, has previously been shown to play a key role in the formation of a non-permissive environment after CNS injury in mammalians.

METHODS

The expression of sema-3A and its effect on regenerative processes in injured gold fish retina and optic nerve were investigated in this study. Unilateral optic nerve axotomy or crush was induced in goldfish. 2 microl sema-3A was injected intraviterally 48 hours post injury. Neuronal viability was measured using the lipophilic neurotracer dye 4-Di-10-Asp. Axonal regeneration was initiated using the anterograde dye dextran. Retinas and optic nerves were collected at intervals of 2, 3, 7, 14 and 28 days after the procedure. Using Western blot and immunohistochemical analysis, the expression levels of semaphorin-3A, axonal regeneration, the removal of myelin debris and macrophage invasion were studied.

RESULTS

We found a decrease in sema-3A levels in the retina at an early stage after optic nerve injury, but no change in sema-3A levels in the injured optic nerve. Intravitreal injection of sema-3A to goldfish eye, shortly after optic nerve injury, led to destructive effects on several pathways of the regenerative processes, including the survival of retinal ganglion cells, axonal growth, and clearance of myelin debris from the lesion site by macrophages.

CONCLUSIONS

Exogenous administration of sema-3A in fish indirectly interferes with the regeneration process of the optic nerve. The findings corroborate our previous findings in mammals, and further validate sema-3A as a key factor in the generation of a non-permissive environment after transection of the optic nerve.

摘要

背景

成年哺乳动物中枢神经系统（CNS）的神经元由于形成非许可环境而无法再生损伤的轴突。视网膜神经节细胞（RGC）作为 CNS 的一部分，具有这种特征。相比之下，鱼类等较低等脊椎动物的 RGC 能够再生损伤的视神经轴突，并通过复杂的多因素过程，在损伤后实现功能性视力。神经调节蛋白-3A（sema-3A）是 class 3 神经调节蛋白家族的一员，因其具有排斥和凋亡活性而闻名，先前已被证明在哺乳动物中枢神经系统损伤后形成非许可环境中发挥关键作用。

方法

本研究调查了 sema-3A 的表达及其对受伤金鱼视网膜和视神经再生过程的影响。在金鱼中诱导单侧视神经轴突切断或挤压。损伤后 48 小时，将 2 微升 sema-3A 经玻璃体腔内注射。使用亲脂性神经示踪染料 4-Di-10-Asp 测量神经元存活率。使用顺行染料葡聚糖启动轴突再生。在手术后 2、3、7、14 和 28 天的不同时间收集视网膜和视神经。通过 Western blot 和免疫组织化学分析，研究了神经调节蛋白-3A、轴突再生、髓鞘碎片清除和巨噬细胞浸润的表达水平。

结果

我们发现视神经损伤后早期视网膜中 sema-3A 水平降低，但损伤视神经中 sema-3A 水平没有变化。视神经损伤后不久，向金鱼眼内注射 sema-3A 会导致再生过程的几个途径产生破坏性影响，包括视网膜神经节细胞的存活、轴突生长和巨噬细胞从损伤部位清除髓鞘碎片。

结论

外源性给予鱼类 sema-3A 会间接干扰视神经的再生过程。这些发现与我们之前在哺乳动物中的发现相符，并进一步证实 sema-3A 是视神经切断后产生非许可环境的关键因素。

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Sema-3A 可间接破坏控制损伤后金鱼视神经的再生过程。

Sema-3A indirectly disrupts the regeneration process of goldfish optic nerve after controlled injury.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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