Automated screening for oxidative or methylation-induced DNA damage in human cells

Main Article Content

Matthias Mack
Katharina Schweinlin
Nicola Mirsberger
Tabea Zubel
Alexander Bürkle

Abstract

The assessment of genotoxicity upon exposure to chemical and environmental agents plays an important role in basic research as well as in pharmaceutical, chemical, cosmetic and food industry. Low sensitivity and lack of inter-laboratory comparability are considered problematic issues in genotoxicity testing. Moreover, commonly used mutagenicity assays lack information about early and specific genotoxic events.
Previously, we developed an automated version of the ‘Fluorimetric Detection of Alkaline DNA Unwinding’ (FADU) assay as a high-throughput screening method for the detection of DNA strand breaks in living cells. Here we report an enzyme-modified version of the cell based FADU assay (emFADU) for the determination of oxidative and methylation lesions in cellular DNA. Our method is based on the use of formamidopyrimidine DNA glycosylase or human alkyladenine DNA glycosylase for the detection of chemically-induced nucleobase modifications in lysates of immortalised cell lines, growing in suspension or as adherent cells, and in peripheral blood mononuclear cells. We could show that upon treatment with sub-cytotoxic doses of known genotoxins, oxidative and methylation lesions are readily detectable.
This fast, inexpensive, and convenient method could be useful as a high-content screening approach for the sensitive and specific assessment of genotoxicity in human cells. Thus, when implemented in the early compound development in an industrial setting, the emFADU assay could help reduce the number of animals used for toxicity testing. Furthermore, as we established the method for different cell types, this new assay may provide an opportunity for population studies and/or mechanistic research into DNA repair pathways.

Article Details

How to Cite
Mack, M., Schweinlin, K., Mirsberger, N., Zubel, T. and Bürkle, A. (2020) “Automated screening for oxidative or methylation-induced DNA damage in human cells”, ALTEX - Alternatives to animal experimentation, 00. doi: 10.14573/altex.2001221.
Section
Articles

Most read articles by the same author(s)