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Interlaboratory evaluation of a multiplexed high information content in vitro genotoxicity assay

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We previously described a multiplexed in vitro genotoxicity assay based on flow cytometric analysis of detergent‐liberated nuclei that are simultaneously stained with propidium iodide and labeled with fluorescent antibodies against… Click to show full abstract

We previously described a multiplexed in vitro genotoxicity assay based on flow cytometric analysis of detergent‐liberated nuclei that are simultaneously stained with propidium iodide and labeled with fluorescent antibodies against p53, γH2AX, and phospho‐histone H3. Inclusion of a known number of microspheres provides absolute nuclei counts. The work described herein was undertaken to evaluate the interlaboratory transferability of this assay, commercially known as MultiFlow® DNA Damage Kit—p53, γH2AX, Phospho‐Histone H3. For these experiments, seven laboratories studied reference chemicals from a group of 84 representing clastogens, aneugens, and nongenotoxicants. TK6 cells were exposed to chemicals in 96‐well plates over a range of concentrations for 24 hr. At 4 and 24 hr, cell aliquots were added to the MultiFlow reagent mix and following a brief incubation period flow cytometric analysis occurred, in most cases directly from a 96‐well plate via a robotic walk‐away data acquisition system. Multiplexed response data were evaluated using two analysis approaches, one based on global evaluation factors (i.e., cutoff values derived from all interlaboratory data), and a second based on multinomial logistic regression that considers multiple biomarkers simultaneously. Both data analysis strategies were devised to categorize chemicals as predominately exhibiting a clastogenic, aneugenic, or nongenotoxic mode of action (MoA). Based on the aggregate 231 experiments that were performed, assay sensitivity, specificity, and concordance in relation to a priori MoA grouping were ≥ 92%. These results are encouraging as they suggest that two distinct data analysis strategies can rapidly and reliably predict new chemicals’ predominant genotoxic MoA based on data from an efficient and transferable multiplexed in vitro assay. Environ. Mol. Mutagen. 58:146–161, 2017. © 2017 Wiley Periodicals, Inc.

Keywords: analysis; vitro genotoxicity; genotoxicity assay; interlaboratory evaluation

Journal Title: Environmental and Molecular Mutagenesis
Year Published: 2017

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