人和小鼠视网膜双极细胞的形态及功能比较  被引量：1

作　　者：罗雪[1] 沈雨濠 江梦南 刘诗亮[1] 胡单萍 沈吟[1] 

机构地区：[1]武汉大学人民医院眼科中心,430060

出　　处：《中华眼视光学与视觉科学杂志》2016年第1期14-18,共5页Chinese Journal Of Optometry Ophthalmology And Visual Science

基　　金：国家自然科学基金面上项目（81270998,81470628）;湖北省卫计委青年人才项目（WJ2015Q014）;武汉大学自主科研拔尖创新人才项目（2042014kf0207）

摘　　要：目的比较人和小鼠视网膜视杆双极细胞形态和药物模拟对光反应的电流特性。方法实验研究。对视网膜冰冻切片行免疫荧光染色，用PKC-α抗体标记视网膜视杆双极细胞，以观察其形态分布特点。在灌流充氧的情况下制备视网膜薄片切片，行视网膜ON型以及OFF型双极细胞的全细胞膜片钳记录。分别在ON型双极细胞和OFF型双极细胞上给予快速加药40μmol／LLY3414925或100μmol／LAMPA，诱导出谷氨酸电流，以记录双极细胞模拟对光反应，并比较人和小鼠的谷氨酸电流动力学的差异，人和小鼠各项数据比较采用非参数检验（Mann—Whitney检验）进行处理。结果人和小鼠的视网膜视杆双极细胞形态分布相似，但PKC-α表达略有不同。膜片钳结果显示人视网膜ON型双极细胞的模拟对光反应的上升相的达峰时间为（1．91±0．11）ms，与小鼠视网膜ON型双极细胞[（0．83±0．08）ms[相比明显较长（U=0．00，P〈0．01），而人视网膜ON型双极细胞的模拟对光反应恢复时间为（1．34±0．40）ms，明显短于小鼠[（20．06±3．07）ms]（U=0．00，P〈0．01）。但人和小鼠视网膜OFF型双极细胞电流动力学即电流幅度[人：（143．0±2．1）pA；小鼠：（136.3±2．2）pA]、反应上升时间[人：（1．91±0．35）ms；小鼠：（1．28±0．52）ms]和恢复时间[人：（220．5±10．8）ms；小鼠：（168．1±29．3）ms]差异均无统计学意义。结论视杆双极细胞在人和小鼠视网膜中分布位置和形态大致相似。人和小鼠视网膜ON型双极细胞电流特性有差异。Objective To compare the morphological and electrophysiological properties of human and mouse retinal bipolar cells. Methods This was an experimental study. Immunofluorescence staining on cryosections of the retina was used to study the expression patterns of protein kinase C alpha （PKC-α） in human and mouse retinas. Retinal rod bipolar cells were labeled with PKC-α antibody. Using voltage clamp recording, glutamate currents from retinal ON bipolar cells and OFF bipolar cells were induced by applying 40μmol/L LY341495 and 100 μmol/L AMPA, respectively. Data were analyzed using nonparametrie tests （Mann-Whitney test）. Results Retinal rod bipolar ceils were similar in mice and humans, with slight differences in the PKC-α expression pattern. Rod bipolar cell bodies were located in the human and mouse INL （inner nuclear layer） with PKC-α staining. Using whole-cell recording, we found that there was a significant difference in LY341495-eurrent kinetics in the human and mouse retinal ON bipolar ceils （U=0.00, P〈0.01） but not in the kinetics of the AMPA-induced current, including amplitude （humans： 143.0±2.1 pA; mice： 136.3±2.2 pA）, time to peak （humans： 1.91±0.35 ms; mice： 1.28±0.52 ms） and time to recovery （humans： 220.5±10.8 ms; mice： 168.1±29.3 ms） in the OFF bipolar cells. Conehlsion Rod bipolar cells are expressed in both mouse and human retinas in a similar pattern with only a slight difference. Our results show the different simulated light response properties between human and mouse retinal ON bipolar cells.

关 键 词：视网膜双极细胞 人类 小鼠 膜片钳术 

分 类 号：R774.1[医药卫生—眼科]