Measuring the viability of crystalline lens epithelial cells by triple Hoechst-Ethidium-Calcein-AM staining.

IF 1.4 3区医学 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY

Molecular Vision Pub Date : 2024-12-31 eCollection Date: 2024-01-01

Sylvain Poinard, Louise Parveau, Gabriel Chapelon, Oliver Dorado, Justin Thomas, Zhiguo He, Chantal Perrache, Alice Ganeau, Fabien Forest, Frédéric Mascarelli, Philippe Gain, Gilles Thuret

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引用次数: 0

Abstract

Purpose: To date, the assessment of lens epithelial cell viability has been proposed only in cell cultures or isolated capsule models. This study aimed to develop a method for quantifying the viability of epithelial cells on whole ex vivo crystalline lenses by triple labeling Hoechst 33342, ethidium homodimer, and calcein-acetoxymethyl (HEC).

Methods: Two models of induced cell death were used to study the performance and potential applications of the technique. First, ten fresh pairs of six-month-old porcine lenses were retrieved. On one lens of each pair, an easily identifiable localized lesion was induced by a calibrated cryo-application, while the other remained intact. Both lenses of each pair were incubated for 1 h at 20 °C in an HEC mixture. Ten other pairs of lenses were used in the second experiment. On one lens of each pair, a diffuse epithelial lesion was induced by incubation in staurosporine (STS) solution (0.5 µM in CorneaMax) for 24 h at 37 °C. The other lens of each pair was incubated in CorneaMax solution without STS for 24 h at 37 °C. The day after, both lenses of each pair were incubated for 1 h at 20 °C in an HEC mixture. Images were acquired with a macroscope (macro zoom) and analyzed with ImageJ. Calcein-AM and ethidium images were used to calculate the area covered by living epithelial cells. Hoescht images allowed us to count cell nuclei per unit area. Viable epithelial cell density (vECD) was defined as the number of viable cells per unit area. Different strategies were developed to reduce background noise.

Results: There was no interfering lens autofluorescence for the exposure times used. The vECD median was 2,840 cells/mm² [10th-90th percentiles = 2,479-3,494] for cryo-injured lenses versus 3,364 cells/mm² [2,919-3,739] for healthy lenses (p = 0.002). The vECD median was 3,804 cells/mm² [10th-90th percentiles = 2,922-4,862] for lenses treated with STS versus 3,896 cells/mm² [3,169-4,980] for healthy lenses (p = 0.002).

Conclusions: Thanks to simple sample preparation, triple HEC staining allows fluorescence imaging of a large series of a whole lens to respect the architecture of the epithelium. It will be particularly useful for cytotoxicity studies of new therapies targeting the lens.

本刊更多论文

采用Hoechst-Ethidium-Calcein-AM三重染色法测定晶状体上皮细胞活力。

目的：迄今为止，仅在细胞培养或分离囊模型中提出了晶状体上皮细胞活力的评估。本研究旨在建立一种通过Hoechst 33342、乙啶同型二聚体和钙黄蛋白-乙酰氧基甲基（HEC）三标记物来定量体外晶状体上皮细胞活力的方法。方法：采用两种诱导细胞死亡模型，研究该技术的性能及应用前景。首先，取出10对新鲜的6个月大的猪晶体。在每一对的一个晶状体上，一个容易识别的局部病变是通过校准冷冻应用诱导的，而另一个保持完整。每对双晶状体在HEC混合物中20℃孵育1小时。在第二个实验中使用了另外十对透镜。在每对晶状体的一个晶状体上，用staurosporine（0.5µM）溶液（CorneaMax）在37℃下孵育24小时，诱导弥漫性上皮病变。每对的另一个晶状体在无STS的CorneaMax溶液中37℃孵育24 h。第二天，每对镜片在20°C HEC混合物中孵育1小时。用宏显微镜（微距变焦）采集图像，用ImageJ进行分析。Calcein-AM和乙锭图像用于计算活上皮细胞覆盖的面积。Hoescht图像允许我们计算每单位面积的细胞核数。活上皮细胞密度（vECD）定义为每单位面积活细胞的数量。人们制定了不同的策略来减少背景噪声。结果：所使用的曝光次数不存在干涉透镜自身荧光。冷冻损伤晶状体的veecd中位数为2,840个细胞/mm2[10 -90个百分点= 2,479-3,494]，而健康晶状体的veecd中位数为3,364个细胞/mm2 [2,919-3,739] （p = 0.002）。经STS治疗的晶状体的veecd中位数为3,804个细胞/mm2[10 -90个百分点= 2,922-4,862]，而健康晶状体的veecd中位数为3,896个细胞/mm2 [3,169-4,980] （p = 0.002）。结论：由于样品制备简单，三重HEC染色可以对整个晶状体的大序列进行荧光成像，以尊重上皮的结构。这将对晶状体新疗法的细胞毒性研究特别有用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Molecular Vision 生物-生化与分子生物学

CiteScore

4.40

自引率

0.00%

发文量

审稿时长

1 months

期刊介绍： Molecular Vision is a peer-reviewed journal dedicated to the dissemination of research results in molecular biology, cell biology, and the genetics of the visual system (ocular and cortical). Molecular Vision publishes articles presenting original research that has not previously been published and comprehensive articles reviewing the current status of a particular field or topic. Submissions to Molecular Vision are subjected to rigorous peer review. Molecular Vision does NOT publish preprints. For authors, Molecular Vision provides a rapid means of communicating important results. Access to Molecular Vision is free and unrestricted, allowing the widest possible audience for your article. Digital publishing allows you to use color images freely (and without fees). Additionally, you may publish animations, sounds, or other supplementary information that clarifies or supports your article. Each of the authors of an article may also list an electronic mail address (which will be updated upon request) to give interested readers easy access to authors.