Development of a 96-well based assay for kinetic determination of catalase enzymatic-activity in biological samples

Oxidative stress biomarkers are powerful endpoints in toxicological research. Cellular reductive/oxidative balance affects numerous signaling pathways involving H2O2. Detoxification and control of H2O2 levels results mainly from catalase activity. The aim of this work was to develop a precise, simpl...

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Published in:Toxicology in vitro 2020-12, Vol.69, p.104996-104996, Article 104996
Main Authors: Grilo, Luís F., Martins, João D., Cavallaro, Chiara H., Nathanielsz, Peter W., Oliveira, Paulo J., Pereira, Susana P.
Format: Article
Language:English
Subjects:
Antioxidant defense
Assaying
Biological activity
Biological properties
Biological samples
Biomarkers
Catalase
Coefficient of variation
Confidence intervals
Decomposition
Detoxification
Hydrogen peroxide
Mathematical analysis
Oxidative stress
Sheep
Toxicity screening
Tumor cell lines
Tumors
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Summary:Oxidative stress biomarkers are powerful endpoints in toxicological research. Cellular reductive/oxidative balance affects numerous signaling pathways involving H2O2. Detoxification and control of H2O2 levels results mainly from catalase activity. The aim of this work was to develop a precise, simple, cost-effective microassay to measure catalase activity in small tissue samples and cell extracts. We developed a protocol that quantifies H2O2 decomposition by intrinsic catalase in biological samples. Catalase activity was calculated based on rate of decomposition of H2O2, following absorbance at 240 nm. We developed a multi-well spectroscopic approach, reducing sample quantity requirements and allowing simultaneous assessment of large number of samples. The protocol is sensitive across a wide range of catalase activity (11.5–7575 U). The assay presents a 95% confidence interval with an intra-assay coefficient of variation of 3.7%, an inter-assay coefficient of variation of 6.2% and good correlation with a commercial kit. The assay was established and validated for different biological samples, including sheep hepatic tissue and human tumor and non-tumor cell lines. This high-throughput method is robust, sensitive, time-saving and cost-effective, generating highly reproducible results with precision and good correlation with a commercial kit reinforcing the method's validity for research and toxicological applications. [Display omitted] •New high-sensitivity and fast methodology for catalase peroxidase activity assessment was developed;•This assay is reliable for tissue and cell samples and a wide catalase activity range;•The developed protocol shows small intra- and inter-assay variations.
ISSN:0887-2333
1879-3177
DOI:10.1016/j.tiv.2020.104996