扫描激光检眼镜对嵌合小鼠视网膜内造血细胞的体内追踪

IntraVital Pub Date : 2012-10-01 DOI:10.4161/intv.23561
C. Alt, J. Runnels, G. S. Teo, Charles P. Lin
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引用次数: 16

摘要

我们研究了骨髓移植(BMT)对视网膜细胞更新的影响,通过使用一种专门为小鼠视网膜成像开发的定制的多色共聚焦扫描激光检眼镜(SLO),对活体小鼠视网膜中的原生小胶质细胞和移植供体骨髓源细胞(BMDC)群体进行同步细胞跟踪。将视网膜小胶质细胞表达绿色荧光蛋白(GFP)的CX3CR1GFP/+小鼠暴露于致死剂量的伽马辐射中,随后用通用DsRed供体小鼠的骨髓细胞进行抢救。在放疗和BMT后4个月的时间过程中,GFP+小胶质细胞的进行性丢失伴随着DsRed+ BMDC的延迟植入。形态学检查显示剩余的GFP+小胶质细胞呈分枝状,而移植的DsRed+细胞既呈分枝状又呈树突状。正常情况下,正常视网膜血管中不存在白细胞内皮相互作用,但即使在三个月后也观察到,这表明辐射暴露后很长时间内仍存在持续的炎症。荧光素血管造影显示辐照后血视网膜屏障早期受损。体内成像提供了一种强大的手段,可以在从几秒钟到几个月的广泛时间尺度上研究动态细胞过程,这是以前无法通过体外分析获得的。
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In vivo tracking of hematopoietic cells in the retina of chimeric mice with a scanning laser ophthalmoscope
We examine the effect of bone marrow transplantation (BMT) on retinal cell turnover by performing simultaneous cell tracking of native microglia and engrafting donor bone marrow-derived cell (BMDC) populations in the retinae of live mice using a custom-built multi-color confocal scanning laser ophthalmoscope (SLO) specifically developed for murine retinal imaging. CX3CR1GFP/+ mice whose retinal microglia express the green fluorescent protein (GFP) were exposed to a lethal dose of gamma radiation and subsequently rescued with bone marrow cells from universal DsRed donor mice. Over a time course of four months after the irradiation and BMT, progressive loss of GFP+ microglia was accompanied by delayed engraftment of DsRed+ BMDC. Morphologic examination revealed that the remaining GFP+ microglia were ramified, while engrafting DsRed+ cells exhibited both ramification and dendriform shape. Leukocyte endothelial interaction, normally absent in healthy retinal vasculature, was observed even after three months, indicating sustained inflammation long after the radiation exposure. Fluorescein angiography demonstrated that the blood-retina barrier is compromised early after irradiation. In vivo imaging provides a powerful means to study dynamic cellular processes over a broad range of timescales from seconds to months that have previously not been accessible by ex vivo analysis.
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