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两种青光眼基因——肌球蛋白和视神经病变基因——对神经突生长的差异影响。

Differential effects of myocilin and optineurin, two glaucoma genes, on neurite outgrowth.

机构信息

Department of Ophthalmology and Visual Sciences, University of Illinois at Chicago, College of Medicine, Chicago, IL 60612, USA.

出版信息

Am J Pathol. 2010 Jan;176(1):343-52. doi: 10.2353/ajpath.2010.090194. Epub 2009 Dec 3.

DOI:10.2353/ajpath.2010.090194
PMID:19959812
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2797895/
Abstract

Myocilin and optineurin are two genes linked to glaucoma, a major blinding disease characterized by progressive loss of retinal ganglion cells (RGCs) and their axons. To investigate the effects of force-expressed wild-type and mutant myocilin and optineurin on neurite outgrowth in neuronal cells, we transiently transfected cells with pEGFP-N1 (mock control) as well as myocilin and optineurin plasmids including pMYOC(WT)-EGFP, pMYOC(P370L)-EGFP, pMYOC(1-367)-EGFP, pOPTN(WT)-EGFP, and pOPTN(E50K)-EGFP. PC12 cells transfected with pEGFP-N1 produced, as anticipated, long and extensive neuritis on nerve growth factor induction. The neurite length in those cells transfected with myocilin constructs was shortened and the number of neurites was also reduced. A similar inhibitory effect on neurite outgrowth was also elicited by myocilin transfection in RGC5 cells. In contrast, neither transfection of the optineurin constructs pOPTN(WT)-EGFP and pOPTN(E50K)-EGFP nor the myocilin and optineurin small-interfering RNA treatments induced significant alterations in neurite outgrowth. Transfection with the wild-type optineurin construct, but not with that of the wild-type myocilin, increased the apoptotic activity in cells. These results demonstrated that the two glaucoma genes, myocilin and optineurin, exhibited differential effects on neurite outgrowth. They may contribute to the development of neurodegenerative glaucoma via distinct mechanisms.

摘要

肌球蛋白和视神经病变是两种与青光眼相关的基因,青光眼是一种主要的致盲性疾病,其特征为视网膜神经节细胞(RGCs)及其轴突进行性丧失。为了研究力表达的野生型和突变型肌球蛋白和视神经病变对神经元细胞轴突生长的影响,我们用 pEGFP-N1(模拟对照)以及包括 pMYOC(WT)-EGFP、pMYOC(P370L)-EGFP、pMYOC(1-367)-EGFP、pOPTN(WT)-EGFP 和 pOPTN(E50K)-EGFP 的肌球蛋白和视神经病变质粒瞬时转染细胞。预期 pEGFP-N1 转染的 PC12 细胞在神经生长因子诱导下产生长而广泛的神经突。转染肌球蛋白构建体的神经突长度缩短,神经突数量也减少。RGC5 细胞中转染肌球蛋白也产生了类似的抑制轴突生长的作用。相比之下,转染视神经病变构建体 pOPTN(WT)-EGFP 和 pOPTN(E50K)-EGFP 以及肌球蛋白和视神经病变小干扰 RNA 处理均未引起明显的轴突生长改变。野生型视神经病变构建体的转染而非野生型肌球蛋白的转染增加了细胞的凋亡活性。这些结果表明,两种青光眼基因,肌球蛋白和视神经病变,对轴突生长表现出不同的影响。它们可能通过不同的机制导致神经退行性青光眼的发展。

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