Development of a Direct Trypan Blue Exclusion Method to Detect Cell Viability of Adherent Cells into ELISA Plates

Selcen Çelik Uzuner
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引用次数: 12

Abstract

Cell viability detection is important in cell culture applications including measurement of cell proliferation i.e for understanding cytotoxic effects of compounds on cells. There are some cell viability methods based on fluorescence or non-fluorescence detection. More simplified evaluation for cell viability, such as trypan blue staining, can be preferred before performing fluorescence assays. This appears advantageous when to have a large number of cell samples in ELISA plates after treatments with different concentrations of drug candidates. Thus, further fluorescence assays can include less concentrations rather than experiencing all used along 96-well plates. For this, trypan blue exclusion method is an option. Traditionally, treated cells are harvested by centrifugation and incubated with trypan blue within tubes followed by transferring the mixture into a hemacytometer with two chambers and assessed under the microscope. Nevertheless, using a hemacytometer limits practicability of this method when analyzing various cell samples into 96-well plates at the same time. This study was aimed to adapt trypan blue method to in situ staining of adherent cells cultured on ELISA plates. For this, cells were fixed with different fixatives after trypan blue incubation to maintain cells in impenetrable meshwork, and paraformaldehyde was the most effective fixative. This modified protocol was validated by testing the effect of dimethylsulfoxide-a cytotoxic agent-on cells, and expectedly found that cell viability reduced with higher concentrations of dimethylsulfoxide suggesting that in situ detection of cell viability by trypan blue can be a useful tool for preliminary detection of cells cultured on ELISA plates before performing automatized experiments with such flow cytometer and/or microplate reader.
直接台盼蓝排除法检测贴壁细胞活力的建立
细胞活力检测在细胞培养应用中很重要,包括测量细胞增殖,即了解化合物对细胞的细胞毒性作用。有一些基于荧光或非荧光检测的细胞活力检测方法。更简单的细胞活力评估,如台盼蓝染色,可优先进行荧光分析之前。当用不同浓度的候选药物处理后,在ELISA板中有大量细胞样本时,这似乎是有利的。因此,进一步的荧光分析可以包括更少的浓度,而不是经历沿96孔板全部使用。为此,台盼蓝排除法是一种选择。传统上,处理后的细胞通过离心和台盼蓝在试管中孵育,然后将混合物转移到具有两个腔室的血细胞计中,并在显微镜下进行评估。然而,当同时分析96孔板上的各种细胞样品时,使用血细胞计限制了该方法的实用性。本研究旨在使台盼蓝法适用于ELISA板上培养的贴壁细胞的原位染色。为此,在台盼蓝培养后,用不同的固定剂固定细胞,使细胞保持在不可穿透的网络中,多聚甲醛是最有效的固定剂。通过测试二甲亚砜(一种细胞毒性物质)对细胞的影响,该改进方案得到了验证,并预期发现细胞活力随着二甲亚砜浓度的升高而降低,这表明在流式细胞仪和/或微孔板阅读器进行自动化实验之前,用台色蓝原位检测细胞活力可以作为在ELISA板上培养的细胞进行初步检测的有用工具。
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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