Improving the dichloro-dihydro-fluorescein (DCFH) assay for the assessment of intracellular reactive oxygen species formation by nanomaterials

IF 4.7 3区 环境科学与生态学 Q2 ENVIRONMENTAL SCIENCES
Nienke Ruijter , Margriet van der Zee , Alberto Katsumiti , Matthew Boyles , Flemming R. Cassee , Hedwig Braakhuis
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引用次数: 0

Abstract

To facilitate Safe and Sustainable by Design (SSbD) strategies during the development of nanomaterials (NMs), quick and easy in vitro assays to test for hazard potential at an early stage of NM development are essential. The formation of reactive oxygen species (ROS) and the induction of oxidative stress are considered important mechanisms that can lead to NM toxicity. In vitro assays measuring oxidative stress are therefore commonly included in NM hazard assessment strategies. The fluorescence-based dichloro-dihydro-fluorescein (DCFH) assay for cellular oxidative stress is a simple and cost-effective assay, making it a good candidate assay for SSbD hazard testing strategies. It is however subject to several pitfalls and caveats. Here, we provide further optimizations to the assay using 5-(6)-Chloromethyl-2′,7′-dichlorodihydrofluorescein diacetate acetyl ester (CM-H2DCFDA-AE, referred to as DCFH probe), known for its improved cell retention.

We measured the release of metabolic products of the DCFH probe from cells to supernatant, direct reactions of CM-H2DCFDA-AE with positive controls, and compared the commonly used plate reader-based DCFH assay protocol with fluorescence microscopy and flow cytometry-based protocols. After loading cells with DCFH probe, translocation of several metabolic products of the DCFH probe to the supernatant was observed in multiple cell types. Translocated DCFH products are then able to react with test substances including positive controls. Our results also indicate that intracellularly oxidized fluorescent DCF is able to translocate from cells to the supernatant. In either way, this will lead to a fluorescent supernatant, making it difficult to discriminate between intra- and extra-cellular ROS production, risking misinterpretation of possible oxidative stress when measuring fluorescence on a plate reader.

The use of flow cytometry instead of plate reader-based measurements resolved these issues, and also improved assay sensitivity. Several optimizations of the flow cytometry-based DCFH ISO standard (ISO/TS 19006:2016) were suggested, including loading cells with DCFH probe before incubation with the test materials, and applying an appropriate gating strategy including live-death staining, which was not included in the ISO standard.

In conclusion, flow cytometry- and fluorescence microscopy-based read-outs are preferred over the classical plate reader-based read-out to assess the level of intracellular oxidative stress using the cellular DCFH assay.

Abstract Image

改进二氯二氢荧光素(DCFH)测定法,以评估纳米材料在细胞内形成的活性氧。
为促进纳米材料(NMs)开发过程中的安全与可持续设计(SSbD)战略,必须在纳米材料开发的早期阶段采用快速简便的体外检测方法来测试其潜在危害。活性氧(ROS)的形成和氧化应激的诱导被认为是导致 NM 毒性的重要机制。因此,测量氧化应激的体外检测通常被纳入非转基因危害评估策略。基于荧光的二氯二氢荧光素(DCFH)细胞氧化应激测定是一种简单且具有成本效益的测定方法,因此是 SSbD 危害测试策略的理想候选测定方法。不过,它也存在一些缺陷和注意事项。在此,我们使用 5-(6)-Chloromethyl-2',7'-dichlorodihydrofluorescein diacetate acetyl ester(CM-H2DCFDA-AE,简称 DCFH 探针)对该检测方法进行了进一步的优化。我们测量了 DCFH 探针的代谢产物从细胞释放到上清液的情况、CM-H2DCFDA-AE 与阳性对照的直接反应,并将常用的基于平板阅读器的 DCFH 检测方案与基于荧光显微镜和流式细胞仪的方案进行了比较。给细胞装上 DCFH 探针后,在多种类型的细胞中观察到 DCFH 探针的几种代谢产物转运到上清液中。转运的 DCFH 产物能够与测试物质(包括阳性对照)发生反应。我们的结果还表明,细胞内氧化的荧光 DCF 能够从细胞转移到上清液中。无论采用哪种方式,都会导致上清液发出荧光,从而难以区分细胞内和细胞外 ROS 的产生,在平板阅读器上测量荧光时有可能误读可能存在的氧化应激。使用流式细胞仪代替平板阅读器测量解决了这些问题,还提高了检测灵敏度。对基于流式细胞仪的 DCFH ISO 标准(ISO/TS 19006:2016)提出了一些优化建议,包括在用测试材料孵育细胞前用 DCFH 探针装载细胞,以及采用适当的选通策略,包括活死染色,而这并不包括在 ISO 标准中。总之,在使用细胞 DCFH 检测法评估细胞内氧化应激水平时,基于流式细胞仪和荧光显微镜的读数优于基于传统平板阅读器的读数。
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
NanoImpact
NanoImpact Social Sciences-Safety Research
CiteScore
11.00
自引率
6.10%
发文量
69
审稿时长
23 days
期刊介绍: NanoImpact is a multidisciplinary journal that focuses on nanosafety research and areas related to the impacts of manufactured nanomaterials on human and environmental systems and the behavior of nanomaterials in these systems.
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