激光损伤后穆勒细胞的激活、增殖和迁移。

Müller cell activation, proliferation and migration following laser injury.

作者信息

Tackenberg Mark A, Tucker Budd A, Swift Jesse S, Jiang Caihui, Redenti Stephen, Greenberg Kenneth P, Flannery John G, Reichenbach Andreas, Young Michael J

机构信息

Schepens Eye Research Institute, Department of Ophthalmology, Harvard Medical School, Boston, MA 02114, USA.

出版信息

Mol Vis. 2009 Sep 17;15:1886-96.

PMID:19768129

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2746266/

Abstract

PURPOSE

Müller cells are well known for their critical role in normal retinal structure and function, but their reaction to retinal injury and subsequent role in retinal remodeling is less well characterized. In this study we used a mouse model of retinal laser photocoagulation to examine injury-induced Müller glial reaction, and determine how this reaction was related to injury-induced retinal regeneration and cellular repopulation.

METHODS

Experiments were performed on 3-4-week-old C57BL/6 mice. Retinal laser photocoagulation was used to induce small, circumscribed injuries; these were principally confined to the outer nuclear layer, and surrounded by apparently healthy retinal tissue. Western blotting and immunohistochemical analyses were used to determine the level and location of protein expression. Live cell imaging of green fluorescent protein (GFP)-infected Müller cells (AAV-GFAP-GFP) were used to identify the rate and location of retinal Müller cell nuclear migration.

RESULTS

Upon injury, Müller cells directly at the burn site become reactive, as evidenced by increased expression of the intermediate filament proteins glial fibrillary acidic protein (GFAP) and nestin. These reactive cells re-enter the cell cycle as shown by expression of the markers Cyclin D1 and D3, and their nuclei begin to migrate toward the injury site at a rate of approximately 12 microm/hr. However, unlike other reports, evidence for Müller cell transdifferentiation was not identified in this model.

CONCLUSIONS

Retinal laser photocoagulation is capable of stimulating a significant glial reaction, marked by activation of cell cycle progression and retinal reorganization, but is not capable of stimulating cellular transdifferentiation or neurogenesis.

摘要

目的

缪勒细胞在正常视网膜结构和功能中所起的关键作用已广为人知，但其对视网膜损伤的反应以及随后在视网膜重塑中的作用尚不十分清楚。在本研究中，我们使用视网膜激光光凝小鼠模型来检测损伤诱导的缪勒神经胶质反应，并确定这种反应与损伤诱导的视网膜再生和细胞重新填充之间的关系。

方法

实验在3 - 4周龄的C57BL/6小鼠身上进行。使用视网膜激光光凝诱导小的、局限性损伤；这些损伤主要局限于外核层，并被看似健康的视网膜组织包围。采用蛋白质印迹法和免疫组织化学分析来确定蛋白质表达的水平和位置。利用绿色荧光蛋白（GFP）感染的缪勒细胞（腺相关病毒 - 胶质纤维酸性蛋白 - GFP，AAV - GFAP - GFP）的活细胞成像来确定视网膜缪勒细胞核迁移的速率和位置。

结果

损伤后，烧伤部位直接的缪勒细胞发生反应，表现为中间丝蛋白胶质纤维酸性蛋白（GFAP）和巢蛋白的表达增加。这些反应性细胞重新进入细胞周期，表现为细胞周期蛋白D1和D3的表达，并且它们的细胞核开始以约12微米/小时的速率向损伤部位迁移。然而，与其他报道不同的是，在该模型中未发现缪勒细胞转分化的证据。

结论

视网膜激光光凝能够刺激显著的神经胶质反应，其特征为细胞周期进程的激活和视网膜重组，但不能刺激细胞转分化或神经发生。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2251/2746266/35c8bda17e20/mv-v15-1886-f1.jpg

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激光损伤后穆勒细胞的激活、增殖和迁移。

Müller cell activation, proliferation and migration following laser injury.

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