Asya Smirnov, Michael D. Solga, Joanne Lannigan, Alison K. Criss
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引用次数: 11
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Abstract
Quantifying the efficiency of particle uptake by host cells is important in the fields of infectious diseases, autoimmunity, cancer, developmental biology, and drug delivery. Here we present a protocol for high-throughput analysis of particle uptake by imaging flow cytometry, using the bacterium Neisseria gonorrhoeae attached to and internalized by neutrophils as an example. Cells are exposed to fluorescently labeled bacteria, fixed, and stained with a bacteria-specific antibody of a different fluorophore. Thus, in the absence of a permeabilizing agent, extracellular bacteria are double-labeled with two fluorophores while intracellular bacteria remain single-labeled. A spot count algorithm is used to determine the number of single- and double-labeled bacteria in individual cells, to calculate the percent of cells associated with bacteria, percent of cells with internalized bacteria, and percent of cell-associated bacteria that are internalized. These analyses quantify bacterial association and internalization across thousands of cells and can be applied to diverse experimental systems. © 2017 by John Wiley & Sons, Inc.
成像流式细胞术的高通量颗粒摄取分析。
在传染病、自身免疫、癌症、发育生物学和药物传递等领域,量化宿主细胞对颗粒的摄取效率具有重要意义。在这里,我们提出了一种通过成像流式细胞术高通量分析颗粒摄取的方案,以淋病奈瑟菌附着在中性粒细胞上并被中性粒细胞内化为例。细胞暴露于荧光标记的细菌,固定,并用不同荧光团的细菌特异性抗体染色。因此,在没有渗透剂的情况下,细胞外细菌被两个荧光团双重标记,而细胞内细菌仍然是单标记。使用点计数算法来确定单个细胞中单标记和双标记细菌的数量,计算与细菌相关的细胞的百分比,内化细菌的细胞的百分比,以及内化细胞相关细菌的百分比。这些分析量化了数千个细胞的细菌关联和内化,可以应用于不同的实验系统。©2017 by John Wiley & Sons, Inc。
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