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眼干燥症对活体多光子显微镜下观察到的泪腺树突状细胞动力学的影响。

Effect of Dry Eye Disease on the Kinetics of Lacrimal Gland Dendritic Cells as Visualized by Intravital Multi-Photon Microscopy.

机构信息

Center for Translational Ocular Immunology, Tufts Medical Center, Tufts University School of Medicine, Boston, MA, United States.

Department of Ophthalmology, Tufts Medical Center, Tufts University School of Medicine, Boston, MA, United States.

出版信息

Front Immunol. 2020 Aug 12;11:1713. doi: 10.3389/fimmu.2020.01713. eCollection 2020.

DOI:10.3389/fimmu.2020.01713
PMID:32903439
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7434984/
Abstract

The lacrimal gland (LG) is the main source of the tear film aqueous layer and its dysfunction results in dry eye disease (DED), a chronic immune-mediated disorder of the ocular surface. The desiccating stress (DS) murine model that mimics human DED, results in LG dysfunction, immune cell infiltration, and consequently insufficient tear production. To date, the immune cell kinetics in DED are poorly understood. The purpose of this study was to develop a murine model of intravital multi-photon microscopy (IV-MPM) for the LG, and to investigate the migratory kinetics and 3D morphological properties of conventional dendritic cells (cDCs), the professional antigen presenting cells of the ocular surface, in DED. Mice were placed in a controlled environmental chamber with low humidity and increased airflow rate for 2 and 4 weeks to induce DED, while control naïve transgenic mice were housed under standard conditions. DED mice had significantly decreased tear secretion and increased fluorescein staining ( < 0.01) compared to naïve controls. Histological analysis of the LG exhibited infiltrating mononuclear and polymorphonuclear cells ( < 0.05), as well as increased LG swelling ( < 0.001) in DED mice compared to controls. Immunofluorescence staining revealed increased density of cDCs in DED mice ( < 0.001). IV-MPM of the LG demonstrated increased density of cDCs in the LGs of DED mice, compared with controls ( < 0.001). cDCs were more spherical in DED at both time points compared to controls ( < 0.001); however, differences in surface area were found at 2 weeks in DED compared with naïve controls ( < 0.001). Similarly, 3D cell volume was significantly lower at 2 weeks in DED vs. the naïve controls ( < 0.001). 3D instantaneous velocity and mean track speed were significantly higher in DED compared to naïve mice ( < 0.001). Finally, the meandering index, an index for directionality, was significant increased at 4 weeks after DED compared with controls and 2 weeks of DED ( < 0.001). Our IV-MPM study sheds light into the 3D morphological alterations and cDC kinetics in the LG during DED. While in naïve LGs, cDCs exhibit a more dendritic morphology and are less motile, they became more spherical with enhanced motility during DED. This study shows that IV-MPM represents a robust tool to study immune cell trafficking and kinetics in the LG, which might elucidate cellular alterations in immunological diseases, such as DED.

摘要

泪腺(LG)是泪膜水层的主要来源,其功能障碍会导致干眼疾病(DED),这是一种慢性免疫介导的眼表面疾病。模仿人类 DED 的干燥应激(DS)鼠模型会导致 LG 功能障碍、免疫细胞浸润,从而导致泪液产生不足。迄今为止,DED 中的免疫细胞动力学仍知之甚少。本研究旨在开发用于 LG 的活体多光子显微镜(IV-MPM)的小鼠模型,并研究在 DED 中常规树突状细胞(cDC)——眼表面的专业抗原呈递细胞的迁移动力学和 3D 形态特性。将小鼠置于具有低湿度和增加气流率的受控环境室中 2 周和 4 周,以诱导 DED,而对照的新生转基因小鼠则在标准条件下饲养。与新生对照相比,DED 小鼠的泪液分泌明显减少,荧光素染色增加(<0.01)。LG 的组织学分析显示,单核细胞和多形核细胞浸润(<0.05)以及 LG 肿胀增加(<0.001)。与对照组相比,DED 小鼠的 LG 中 cDC 的免疫荧光染色密度增加(<0.001)。LG 的 IV-MPM 显示,与对照组相比,DED 小鼠的 LG 中 cDC 的密度增加(<0.001)。与对照组相比,DED 时的 cDC 更呈球形(<0.001);然而,在 DED 中,2 周时的表面积差异与新生对照相比(<0.001)。同样,与新生对照相比,2 周时 DED 中 3D 细胞体积明显降低(<0.001)。与新生小鼠相比,DED 中 3D 瞬时速度和平均轨迹速度明显更高(<0.001)。最后,DED 后 4 周与对照组和 2 周 DED 相比,方向指数(方向性指数)显著增加(<0.001)。我们的 IV-MPM 研究揭示了 DED 期间 LG 中 3D 形态改变和 cDC 动力学。在新生 LG 中,cDC 表现出更树突状的形态,运动性较低,而在 DED 中,它们变得更球形,运动性增强。这项研究表明,IV-MPM 是研究 LG 中免疫细胞迁移和动力学的有力工具,这可能阐明免疫疾病(如 DED)中的细胞改变。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7fcb/7434984/694e4d9c0a9f/fimmu-11-01713-g0006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7fcb/7434984/35aa955ef3fa/fimmu-11-01713-g0001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7fcb/7434984/32d97d188e36/fimmu-11-01713-g0002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7fcb/7434984/b7b3e13af5a1/fimmu-11-01713-g0003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7fcb/7434984/a9fb6f679cad/fimmu-11-01713-g0004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7fcb/7434984/328563bfff9e/fimmu-11-01713-g0005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7fcb/7434984/694e4d9c0a9f/fimmu-11-01713-g0006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7fcb/7434984/35aa955ef3fa/fimmu-11-01713-g0001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7fcb/7434984/32d97d188e36/fimmu-11-01713-g0002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7fcb/7434984/b7b3e13af5a1/fimmu-11-01713-g0003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7fcb/7434984/a9fb6f679cad/fimmu-11-01713-g0004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7fcb/7434984/328563bfff9e/fimmu-11-01713-g0005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7fcb/7434984/694e4d9c0a9f/fimmu-11-01713-g0006.jpg

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