视神经横断和视神经挤压后视网膜转录组的时间进程分析。
Time course profiling of the retinal transcriptome after optic nerve transection and optic nerve crush.
作者信息
Agudo Marta, Pérez-Marín Maria Cruz, Lönngren Ulrika, Sobrado Paloma, Conesa Ana, Cánovas Isabel, Salinas-Navarro Manuel, Miralles-Imperial Jaime, Hallböök Finn, Vidal-Sanz Manuel
机构信息
Departamento Oftalmología, Facultad de Medicina, Universidad de Murcia, Murcia Spain.
出版信息
Mol Vis. 2008 Jun 3;14:1050-63.
PURPOSE
A time-course analysis of gene regulation in the adult rat retina after intraorbital nerve crush (IONC) and intraorbital nerve transection (IONT).
METHODS
RNA was extracted from adult rat retinas undergoing either IONT or IONC at increasing times post-lesion. Affymetrix RAE230.2 arrays were hybridized and analyzed. Statistically regulated genes were annotated and functionally clustered. Arrays were validated by means of quantative reverse transcription polymerase chain reaction (qRT-PCR) on ten regulated genes at two times post-lesion. Western blotting and immunohistofluorescence for four pro-apoptotic proteins were performed on naïve and injured retinas. Finally, custom signaling maps for IONT- and IONC-induced death response were generated (MetaCore, Genego Inc.).
RESULTS
Here we show that over time, 3,219 sequences were regulated after IONT and 1,996 after IONC. Out of the total of regulated sequences, 1,078 were commonly regulated by both injuries. Interestingly, while IONT mainly triggers a gene upregulation-sustained over time, IONC causes a transitory downregulation. Functional clustering identified the regulation of high interest biologic processes, most importantly cell death wherein apoptosis was the most significant cluster. Ten death-related genes upregulated by both injuries were used for array validation by means of qRT-PCR. In addition, western blotting and immunohistofluorescence of total and active Caspase 3 (Casp3), tumor necrosis factor receptor type 1 associated death domain (TRADD), tumor necrosis factor receptor superfamily member 1a (TNFR1a), and c-fos were performed to confirm their protein regulation and expression pattern in naïve and injured retinas. These analyses demonstrated that for these genes, protein regulation followed transcriptional regulation and that these pro-apoptotic proteins were expressed by retinal ganglion cells (RGCs). MetaCore-based death-signaling maps show that several apoptotic cascades were regulated in the retina following optic nerve injury and highlight the similarities and differences between IONT and IONC in cell death profiling.
CONCLUSIONS
This comprehensive time course retinal transcriptome study comparing IONT and IONC lesions provides a unique valuable tool to understand the molecular mechanisms underlying optic nerve injury and to design neuroprotective protocols.
目的
对成年大鼠眶内神经挤压伤(IONC)和眶内神经横断伤(IONT)后视网膜中的基因调控进行时间进程分析。
方法
在损伤后不同时间点,从接受IONT或IONC的成年大鼠视网膜中提取RNA。将其与Affymetrix RAE230.2芯片杂交并进行分析。对经统计学分析有调控变化的基因进行注释并进行功能聚类。通过对损伤后两个时间点的10个调控基因进行定量逆转录聚合酶链反应(qRT-PCR)来验证芯片结果。对未受伤和受伤的视网膜进行4种促凋亡蛋白的蛋白质印迹和免疫荧光检测。最后,生成IONT和IONC诱导的死亡反应的定制信号通路图(MetaCore,Genego公司)。
结果
我们发现,随着时间推移,IONT后有3219个序列发生调控变化,IONC后有1996个序列发生调控变化。在所有调控序列中,有1078个序列在两种损伤后均有调控变化。有趣的是,IONT主要引发随时间持续的基因上调,而IONC则导致短暂的基因下调。功能聚类确定了一些高度相关的生物学过程的调控,其中最重要的是细胞死亡,而凋亡是最显著的聚类。通过qRT-PCR对两种损伤均上调的10个与死亡相关的基因进行芯片验证。此外,对总活性和活性半胱天冬酶3(Casp3)、肿瘤坏死因子受体1相关死亡结构域(TRADD)、肿瘤坏死因子受体超家族成员1a(TNFR1a)和c-fos进行蛋白质印迹和免疫荧光检测,以确认它们在未受伤和受伤视网膜中的蛋白质调控及表达模式。这些分析表明,对于这些基因,蛋白质调控遵循转录调控,且这些促凋亡蛋白由视网膜神经节细胞(RGCs)表达。基于MetaCore的死亡信号通路图显示,视神经损伤后视网膜中有多个凋亡级联反应受到调控,并突出了IONT和IONC在细胞死亡谱方面的异同。
结论
这项比较IONT和IONC损伤的全面的视网膜转录组时间进程研究,为理解视神经损伤的分子机制和设计神经保护方案提供了一个独特且有价值的工具。
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