昼夜节律驱动的神经视网膜亮氨酸拉链基因敲除小鼠中锥状光感受器的吞噬作用
Circadian-clock driven cone-like photoreceptor phagocytosis in the neural retina leucine zipper gene knockout mouse.
作者信息
Krigel Arthur, Felder-Schmittbuhl Marie-Paule, Hicks David
机构信息
Département de Neurobiologie des Rythmes, CNRS UPR 3212, Institut des Neurosciences Cellulaires et Intégratives, Strasbourg, France.
出版信息
Mol Vis. 2010 Dec 28;16:2873-81.
PURPOSE
Whereas much information is available on rod outer segment phagocytosis by the retinal pigmented epithelium (RPE), corresponding data for cones are quite limited, especially in laboratory models of normal rats and mice with very low cone numbers. To characterize the light and circadian control of cone photoreceptor phagocytosis in mice, we capitalized on the blue cone-like phenotype of neural retina leucine zipper gene (Nrl) null mice (Nrl(-/-)).
METHODS
Nrl(-/-) mice were maintained under standard cyclic light (12h:12h light-dark [LD] cycle; light=300 lux) for one month, then divided into two groups: 1) continued maintenance in LD (36 mice); or 2) transferred to constant darkness (DD; 21 mice) for 36 h. Animals were sacrificed every 3 h over 24 h, and their eyes were rapidly enucleated and fixed. Cryosections were stained using specific cone short-wavelength opsin antibodies. Phagosome numbers in the RPE were quantified with a morphometric system. We monitored the expression of c-mer proto-oncogene tyrosine kinase (MerTK) in wild-type and knockout mice using a specific MerTK antibody.
RESULTS
In LD, cone phagocytosis showed a statistically significant peak of activity 1 h after light onset, 2-3 fold higher than at other times. In constant darkness, the temporal phagocytic profile resembled that of LD (significant peak at 1 h of subjective day), but the number of phagosomes was decreased at all time points. Immunostaining of MerTK in wild-type and Nrl(-/-) mice showed expression at the apical surface of the RPE.
CONCLUSIONS
Cone-like outer segment phagocytosis in Nrl(-/-) mice shows a similar profile to that of rods in normal mice and other species. These data are the first to quantify blue cone-like photoreceptor phagocytosis under different lighting conditions in mice, and suggest this model may constitute a valuable system for investigating circadian regulation of cone function.
目的
尽管关于视网膜色素上皮(RPE)对视杆细胞外段的吞噬作用已有大量信息,但关于视锥细胞的相应数据却相当有限,尤其是在视锥细胞数量极少的正常大鼠和小鼠的实验模型中。为了表征小鼠视锥光感受器吞噬作用的光控和昼夜节律控制,我们利用了神经视网膜亮氨酸拉链基因(Nrl)敲除小鼠(Nrl(-/-))的蓝锥样表型。
方法
将Nrl(-/-)小鼠在标准循环光照(12小时光照:12小时明暗[LD]循环;光照强度=300勒克斯)下饲养1个月,然后分为两组:1)继续在LD条件下饲养(36只小鼠);或2)转移至持续黑暗(DD;21只小鼠)环境中36小时。在24小时内每隔3小时处死动物,迅速摘除其眼球并固定。使用特异性视锥短波长视蛋白抗体对冰冻切片进行染色。用形态计量系统对RPE中的吞噬体数量进行定量。我们使用特异性MerTK抗体监测野生型和敲除小鼠中c-mer原癌基因酪氨酸激酶(MerTK)的表达。
结果
在LD条件下,视锥细胞吞噬作用在光照开始后1小时呈现出具有统计学意义的活性峰值,比其他时间高2 - 3倍。在持续黑暗中,吞噬作用的时间分布与LD条件下相似(在主观白天1小时出现显著峰值),但在所有时间点吞噬体数量均减少。野生型和Nrl(-/-)小鼠中MerTK的免疫染色显示在RPE的顶端表面有表达。
结论
Nrl(-/-)小鼠中类似视锥细胞外段的吞噬作用与正常小鼠及其他物种中视杆细胞的吞噬作用具有相似的模式。这些数据首次对小鼠在不同光照条件下蓝锥样光感受器的吞噬作用进行了定量,并表明该模型可能构成一个用于研究视锥细胞功能昼夜节律调节的有价值系统。
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