Ocular and Sensory Trauma Task Area, United States Army Institute of Surgical Research , Fort Sam Houston, Texas.
J Ocul Pharmacol Ther. 2018 Sep;34(7):521-530. doi: 10.1089/jop.2018.0021. Epub 2018 Jun 20.
Given that porcine and human retinas have similar structures and characteristics, ex vivo culture of porcine neuroretina provides an attractive model for studying mechanisms of human retinal injury and degenerative disease. Here, we describe the method that was used to establish and characterize an adult porcine retina culture system as a rapid screening tool for retinal survival in real time.
Neuroretina explants 8 mm in diameter were harvested from adult swine and cultured on porous cell culture inserts with adjustable heights. Retina explant viability was evaluated at 1, 4, 7, 11, and 14 days of culture using a resazurin-based metabolic assay. The explants were analyzed morphologically through immunohistochemistry for glial activation and apoptosis. Morphometric analysis was also performed on hematoxylin and eosin-stained retina sections from each time point.
The viability of retina explants gradually decreased over time in culture. The laminar structure of the neuroretina was well preserved during the first 7 days. However, by day 14, most explants showed significant loss of cells in each laminar layer and obvious thinning. Overall, the progressive loss of retinal lamination and thickness, and increase in apoptotic nuclei with activated hypertrophic Müller cells were well correlated with the metabolic activity of the ex vivo neuroretina explants.
This study was the first report to describe the use of a high-throughput and quantitative method for monitoring retina explant viability in real time. Ex vivo neuroretina cultures closely mimic the functional dynamics of the organ, and can be used efficiently to screen novel therapeutics for retinal neurodegenerative disease.
鉴于猪和人视网膜具有相似的结构和特征,猪神经视网膜的体外培养为研究人类视网膜损伤和退行性疾病的机制提供了一个有吸引力的模型。在这里,我们描述了建立和描述成年猪视网膜培养系统的方法,该系统可作为实时视网膜存活的快速筛选工具。
从成年猪中收获 8mm 直径的神经视网膜外植体,并在具有可调节高度的多孔细胞培养插入物上进行培养。使用基于 Resazurin 的代谢测定法,在培养的第 1、4、7、11 和 14 天评估视网膜外植体的活力。通过针对神经胶质细胞激活和细胞凋亡的免疫组织化学分析,对视网膜外植体进行形态学分析。还对来自每个时间点的视网膜组织的苏木精和伊红染色切片进行了形态计量分析。
在培养过程中,视网膜外植体的活力随时间逐渐降低。在最初的 7 天中,神经视网膜的层状结构得到了很好的保留。然而,到第 14 天,大多数外植体显示出各层细胞的明显丢失和明显变薄。总的来说,视网膜分层和厚度的逐渐丧失,以及激活的肥大 Müller 细胞中的凋亡核的增加,与体外神经视网膜外植体的代谢活性很好地相关。
本研究首次报道了使用高通量和定量方法实时监测视网膜外植体活力的方法。体外神经视网膜培养很好地模拟了器官的功能动态,可有效地用于筛选治疗视网膜神经退行性疾病的新疗法。
