Brn3a作为视网膜神经节细胞的标志物:在未损伤和视神经损伤视网膜中的定性和定量时间进程研究
Brn3a as a marker of retinal ganglion cells: qualitative and quantitative time course studies in naive and optic nerve-injured retinas.
作者信息
Nadal-Nicolás Francisco M, Jiménez-López Manuel, Sobrado-Calvo Paloma, Nieto-López Leticia, Cánovas-Martínez Isabel, Salinas-Navarro Manuel, Vidal-Sanz Manuel, Agudo Marta
机构信息
Departamento de Oftalmología, Facultad de Medicina, Universidad de Murcia, Murcia, Spain.
出版信息
Invest Ophthalmol Vis Sci. 2009 Aug;50(8):3860-8. doi: 10.1167/iovs.08-3267. Epub 2009 Mar 5.
PURPOSE
To characterize Brn3a expression in adult albino rat retinal ganglion cells (RGCs) in naïve animals and in animals subjected to complete intraorbital optic nerve transection (IONT) or crush (IONC).
METHODS
Rats were divided into three groups, naïve, IONT, and IONC. Two-, 5-, 9-, or 14-day postlesion (dpl) retinas were examined for immunoreactivity for Brn3a. Before the injury, the RGCs were labeled with Fluorogold (FG; Fluorochrome, Corp. Denver, CO). Brn3a retinal expression was also determined by Western blot analysis. The proportion of RGCs double labeled with Brn3a and FG was determined in radial sections. The temporal course of reduction in Brn3a(+) RGCs and FG(+) RGCs induced by IONC or IONT was assessed by quantifying, in the same wholemounts, the number of surviving FG-labeled RGCs and Brn3a(+)RGCs at the mentioned time points. The total number of FG(+)RGCs was automatically counted in naïve and injured retinas (2 and 5 dpl) or estimated by manual quantification in retinas processed at 9 and 14 dpl. All Brn3a immunopositive RGCs were counted using an automatic routine specifically developed for this purpose. This protocol allowed, as well, the investigation of the spatial distribution of these neurons.
RESULTS
Brn3a(+) cells were only present in the ganglion cell layer and showed a spatial distribution comparable to that of FG(+) cells. In the naïve retinal wholemounts the mean (mean +/- SEM; n = 14) total number of FG(+)RGCs and Brn3a(+)RGCs was 80,251 +/- 2,210 and 83,449 +/- 4,541, respectively. Whereas in the radial sections, 92.2% of the FG(+)RGCs were also Brn3a(+), 4.4% of the RGCs were Brn3a(+)FG(-) and 3.4% were FG(+)Brn3a(-). Brn3a expression pattern was maintained in injured RGCs. The temporal course of Brn3a(+)RGC and FG(+)RGC loss induced by IONC or IONT followed a similar trend, but Brn3a(+)RGCs loss was detected earlier than that of FG(+)RGCs. Independent of the marker used to detect the RGCs, it was observed that their loss was quicker and more severe after IONT than after IONC.
CONCLUSIONS
Brn3a can be used as a reliable, efficient ex vivo marker to identify and quantify RGCs in control and optic nerve-injured retinas.
目的
描述成年白化大鼠视网膜神经节细胞(RGCs)在未受伤动物以及遭受眶内视神经完全横断(IONT)或挤压(IONC)的动物中的Brn3a表达情况。
方法
将大鼠分为三组,即未受伤组、IONT组和IONC组。在损伤后2天、5天、9天或14天(dpl)检查视网膜中Brn3a的免疫反应性。在损伤前,用荧光金(FG;Fluorochrome公司,科罗拉多州丹佛市)标记RGCs。还通过蛋白质印迹分析确定Brn3a在视网膜中的表达。在放射状切片中确定用Brn3a和FG双重标记的RGCs的比例。通过在相同的整装标本中量化上述时间点存活的FG标记的RGCs和Brn3a(+)RGCs的数量,评估IONC或IONT诱导的Brn3a(+)RGCs和FG(+)RGCs减少的时间进程。在未受伤和受伤的视网膜(2和5 dpl)中自动计数FG(+)RGCs的总数,或在9和14 dpl处理的视网膜中通过手动量化进行估计。使用专门为此目的开发的自动程序对所有Brn3a免疫阳性的RGCs进行计数。该方案还允许研究这些神经元的空间分布。
结果
Brn3a(+)细胞仅存在于神经节细胞层,其空间分布与FG(+)细胞相当。在未受伤的视网膜整装标本中,FG(+)RGCs和Brn3a(+)RGCs的平均(平均值±标准误;n = 14)总数分别为80,251±2,210和83,449±4,541。而在放射状切片中,92.2%的FG(+)RGCs也是Brn3a(+),4.4%的RGCs是Brn3a(+)FG(-),3.4%是FG(+)Brn3a(-)。Brn3a的表达模式在受伤的RGCs中得以维持。IONC或IONT诱导的Brn3a(+)RGC和FG(+)RGC损失的时间进程遵循相似趋势,但Brn3a(+)RGCs的损失比FG(+)RGCs更早被检测到。无论用于检测RGCs的标记物如何,均观察到IONT后RGCs的损失比IONC后更快且更严重。
结论
Brn3a可作为一种可靠、有效的离体标记物,用于鉴定和量化对照及视神经损伤视网膜中的RGCs。
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