2014
DOI: 10.1002/em.21868
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Interpreting in vitro micronucleus positive results: Simple biomarker matrix discriminates clastogens, aneugens, and misleading positive agents

Abstract: The specificity of in vitro mammalian cell genotoxicity assays is low, as they yield a high incidence of positive results that are not observed in animal genotoxicity and carcinogenicity tests, that is, "misleading" or "irrelevant" positives. We set out to develop a rapid and effective follow-up testing strategy that would predict whether apparent in vitro micronucleus-inducing effects are due to a clastogenic, aneugenic, or secondary irrelevant mode(s) of action. Priority was given to biomarkers that could be… Show more

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Cited by 50 publications
(65 citation statements)
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“…Rad51 analysis to test for the involvement of homologous recombination, see below) and analysis of foci induction in different genetic backgrounds such as mutants defective in different DNA repair pathways can provide important mechanistic insights in genotoxicity testing and are therefore prime candidates for inclusion in the battery of follow‐up tests for substances that tested positive in the Ames/ E. coli bacterial mutagenicity assay [Aardema, ]. Multiplexing with other established genotoxicity markers such as the micronucleus test has also been considered [Bryce et al, ]. Moreover, the applicability of foci assays not only to cell cultures but also to tissue sections following in vivo exposure [Qvarnstrom et al, ; Somaiah et al, ; Rothkamm et al, ] opens up exciting opportunities to produce ‘genotoxicity maps’ across the different organs and cell types of the body.…”
Section: Genotoxicity Testingmentioning
confidence: 99%
“…Rad51 analysis to test for the involvement of homologous recombination, see below) and analysis of foci induction in different genetic backgrounds such as mutants defective in different DNA repair pathways can provide important mechanistic insights in genotoxicity testing and are therefore prime candidates for inclusion in the battery of follow‐up tests for substances that tested positive in the Ames/ E. coli bacterial mutagenicity assay [Aardema, ]. Multiplexing with other established genotoxicity markers such as the micronucleus test has also been considered [Bryce et al, ]. Moreover, the applicability of foci assays not only to cell cultures but also to tissue sections following in vivo exposure [Qvarnstrom et al, ; Somaiah et al, ; Rothkamm et al, ] opens up exciting opportunities to produce ‘genotoxicity maps’ across the different organs and cell types of the body.…”
Section: Genotoxicity Testingmentioning
confidence: 99%
“…γH2AX is a biomarker of DNA double strand breaks that appears to be applicable to in vitro genotoxicity testing strategies [Audebert et al, ; Smart et al, ; Garcia‐Canton et al, ; Nikolova et al, ]. As several previous reports have suggested, when γH2AX readings are coupled with mitotic cell (phospho‐histone H3‐positive event) readings, additional information is gained that is useful for discriminating between clastogenic and aneugenic activities [Bryce et al, ; Cheung et al, Khoury et al, ].…”
Section: Introductionmentioning
confidence: 99%
“…The induction of DNA strand breaks observed in mice treated intraperitoneally with doses close to or in excess of the LD 50 has been associated to secondary effects of cytotoxicity (JMPR 2006; Kier 2015). Modes of action associated with secondary cytotoxicity should be excluded from the assessment of the intrinsic genotoxicity potential (Bryce et al 2014; Kitamoto et al 2015). …”
Section: Discussionmentioning
confidence: 99%
“…Secondary genotoxic effects produced by cytotoxicity should also be distinguished from true genotoxic potential (Bryce et al 2014; Kitamoto et al 2015). In fact, the UN and EU guidance recommends carcinogenicity and genotoxicity studies to be conducted on individual chemicals, limiting testing of mixtures/formulations to cases where synergistic effects are expected (United Nations 2015).…”
Section: Discussionmentioning
confidence: 99%