Quantification of Leukocyte Trafficking in a Mouse Model of Multiple Sclerosis through In Vivo Imaging.

EC ophthalmology Pub Date : 2022-11-01
Fan Xia, Jonathan L Lin, David L Zhang, Shuizhen Shi, Seth E Buscho, Massoud Motamedi
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Abstract

Purpose: Optic neuritis occurring in multiple sclerosis (MS) is a disease characterized by chronic inflammation and demyelination in the optic nerve. Although it has been well appreciated that leukocyte infiltration into the optic nerve is an early event during the course of the disease, there has been no study on visualizing and quantifying leukocyte trafficking in the retina during the progression of MS.

Methods: In this study, we generated green fluorescent protein (GFP)+ bone marrow chimeric mice, in which GFP-labeled leukocytes facilitate the visualization of their trafficking in the retina. This reporter was then integrated with a well-established rodent model for MS-experimental autoimmune encephalomyelitis (EAE), allowing high resolution in vivo scanning laser ophthalmoscopy (SLO) to track leukocyte movement in the retina in real time. Quantification of leukocyte trafficking was accomplished through Imaris software.

Results: Through SLO, we were able to localize the GFP signal, allowing us to clearly identify leukocytes within the vascular space. We observed more intense leukocyte migration in the retina of EAE mice, exhibiting three distinct movement behaviors: flowing, rolling/crawling and adherent. There was a marked increase in leukocyte rolling and adhesion in retinal vasculature, particularly in the veins and capillaries after induction of EAE. The velocity of rolling leukocytes ranged from 12.0 to 1065.0 μm/sec in the veins as compared to 14.1 to 942.0 in the capillaries. Furthermore, focal areas of recurrent leukocyte adhesion to endothelial surfaces were observed in EAE retinas.

Conclusion: We generated a novel model that makes it possible to non-invasively track leukocyte trafficking in the retina of EAE mice. Our study demonstrates that leukocyte migration in an MS model is distinctly different from the control, suggesting that leukocytes may play a key role in the development of retinal vascular inflammation and optic neuritis during MS, warranting further investigation of the pathological roles of leukocytes in the disease onset and progression.

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通过体内成像定量小鼠多发性硬化症模型中的白细胞运输。
目的:视神经炎发生于多发性硬化症(MS),是一种以视神经慢性炎症和脱髓鞘为特征的疾病。虽然已经认识到白细胞浸润到视神经是疾病过程中的早期事件,但尚未有研究显示和量化ms进展过程中视网膜中的白细胞运输。方法:在本研究中,我们制造了绿色荧光蛋白(GFP)+骨髓嵌合小鼠,其中GFP标记的白细胞有助于显示其在视网膜中的运输。该报告随后与一个完善的ms实验自身免疫性脑脊髓炎(EAE)啮齿动物模型相结合,允许高分辨率体内扫描激光眼底镜(SLO)实时跟踪视网膜中的白细胞运动。通过Imaris软件完成白细胞贩运的定量。结果:通过SLO,我们能够定位GFP信号,使我们能够清楚地识别血管间隙内的白细胞。我们观察到EAE小鼠视网膜中的白细胞迁移更加强烈,表现出三种不同的运动行为:流动、滚动/爬行和粘附。EAE诱导后视网膜血管,尤其是静脉和毛细血管中白细胞滚动和黏附明显增加。白细胞在静脉中的滚动速度为12.0 ~ 1065.0 μm/sec,而在毛细血管中的滚动速度为14.1 ~ 942.0 μm/sec。此外,在EAE视网膜中观察到复发性白细胞粘附内皮表面的病灶区域。结论:我们建立了一种新的模型,可以无创地跟踪EAE小鼠视网膜中的白细胞运输。我们的研究表明,白细胞在MS模型中的迁移与对照组明显不同,这表明白细胞可能在MS期间视网膜血管炎症和视神经炎的发展中发挥关键作用,值得进一步研究白细胞在疾病发生和进展中的病理作用。
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