Your search keyword '"Aneugens toxicity"' showing total 101 results

1. Di(2-ethylexyl) phthalate and chromosomal damage: Insight on aneugenicity from the cytochalasin-block micronucleus assay.

Author

Amadio F, Bongiorni S, Varalda GM, Marcon F, and Meschini R

Subjects

Humans, Plasticizers toxicity, Chromosome Aberrations chemically induced, Chromosome Aberrations drug effects, Micronuclei, Chromosome-Defective chemically induced, Micronuclei, Chromosome-Defective drug effects, Animals, Cytochalasin B pharmacology, Chromosome Segregation drug effects, Micronucleus Tests methods, Spindle Apparatus drug effects, Diethylhexyl Phthalate toxicity, Aneugens toxicity

Abstract

Bis(2-ethylhexyl) phthalate is the most abundant phthalate used as plasticizer to soften plastics and polymers included in medical devices. Human and environmental exposure may occur because DEHP is not chemically bound to plastics and can easily leach out of the materials. This phthalate is classified as reproductive toxicant and possible carcinogen to humans. The genotoxic potential has still to be clarified, but there are indications suggesting that DEHP may have aneugenic effects. To further investigate DEHP genotoxicity, the cytochalasin-block micronucleus assay was applied and combined with the CREST staining to characterise micronucleus content and gain insights on its genotoxic mode of action. Chromosomal damage was also analysed in metaphase and ana-telophase cells and the morphology of the mitotic spindle was investigated to evaluate the possible involvement of this cellular apparatus as a target of DEHP. Our findings indicated that DEHP induced a statistically significant increase in the frequency of micronuclei as well as in the frequency of CREST-positive micronuclei. Consistently, disturbance of chromosome segregation and induction of numerical chromosome changes were observed together with changes in spindle morphology, formation of multipolar spindles and alteration of the microtubule network. Experiments performed without metabolic activation demonstrated a direct action of DEHP on chromosome segregation not mediated by its metabolites. In conclusion, there is consistent evidence for an aneugenic activity of DEHP. A thresholded genotoxic activity was identified for DEHP, disclosing possible implications for risk assessment., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published

2024

2. Effect of cell treatment procedures on in vitro genotoxicity assessment.

Author

Recoules C, Mirey G, and Audebert M

Subjects

Humans, Mutagenicity Tests methods, Aneugens toxicity, DNA Damage, DNA, Histones metabolism, Mutagens toxicity

Abstract

So far, the majority of in vitro toxicological experiments are conducted after an acute 24 h treatment that does not represent a realistic human chemical exposure. Recently, new in vitro approaches have been proposed to study the chemical toxicological effect over several days in order to be more predictive of a representative exposure scenario. In this study, we investigated the genotoxic potential of chemicals (direct or bioactived clastogen, aneugen and apoptotic inducer) with the γH2AX and pH3 biomarkers, in the human liver-derived HepaRP cell line. We used different treatment durations, with or without a three-day recovery stage (release period), before genotoxicity measurement. Data were analysed with the Benchmark Dose approach. We observed that the detection of clastogenic compounds (notably for DNA damaging agents) was more sensitive after three days of repeated treatment compared to one or three treatments over 24 h. In contrast, aneugenic chemicals were detected as genotoxic in a similar manner whether after a 24 h exposure or a three-day repeated treatment. Globally, the release period decreases the genotoxicity measurement substantially. For DNA damaging agents, after high concentration treatments, γH2AX induction was always observed after a three-day release period. In contrast, for DNA topoisomerase inhibitors, no effect could be observed after the release period. In conclusion, in the HepaRP cell line, there are some important differences between a one-day acute and a three-day repeated treatment protocol, indicating that different cell treatment procedures may differentiate chemical genotoxic mechanisms of action more efficiently., (© 2024. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2024

3. Comparative analysis of micronucleus induction and DNA damage biomarkers in TK6 and A375 cells using flow cytometry.

Author

Sun X, Spellman RA, Engel M, Rubitski E, and Schuler M

Subjects

Flow Cytometry, Micronucleus Tests methods, Biomarkers metabolism, DNA Damage, Aneugens toxicity, Mutagens toxicity

Abstract

Previously, we introduced an alternative adherent A375 cell line for clastogenicity and aneugenicity testing using a high content imaging platform. To further characterize the performance of A375 cells, we investigated the sensitivity and specificity of A375 and TK6 cells by directly comparing micronucleus (MN) induction, cytotoxicity (relative cell counts, viability, and apoptosis), clastogenicity (γH2AX), and aneuploidy markers (pH 3, MPM-2, and polyploidy) using flow cytometric methods. We evaluated 14 compounds across different mechanisms (non-genotoxic apoptosis inducers, clastogens, and aneugens with either tubulin binding or aurora kinase inhibiting phenotypes) at 4-h and 24-h post treatment. Both aneugens and clastogens tested positive for micronucleus induction in both cell lines. Apoptosis continued to be a confounding factor for flow cytometry-based micronuclei assessment in TK6 cells as evidenced by positive responses by the three cytotoxicants. Conversely, A375 cells were not affected by apoptosis-related false positive signals and did not produce a positive response in the in vitro micronucleus assay. Benchmark dose response (BMD) analysis showed that the induction of micronuclei and biomarkers occurred at similar concentrations in both cell lines for clastogens and aneugens. By showing that A375 cells have similar sensitivity to TK6 cells but a greater specificity, these results provide additional support for A375 cells to be used as an alternative adherent cell line for in vitro genetic toxicology assessment., (© 2024 Pfizer Inc. Environmental and Molecular Mutagenesis published by Wiley Periodicals LLC on behalf of Environmental Mutagenesis and Genomics Society.)

Published

2024

4. Comprehensive interpretation of in vitro micronucleus test results for 292 chemicals: from hazard identification to risk assessment application.

Author

Kuo B, Beal MA, Wills JW, White PA, Marchetti F, Nong A, Barton-Maclaren TS, Houck K, and Yauk CL

Subjects

Animals, Micronucleus Tests methods, Mutagenicity Tests methods, Rats, Risk Assessment, Aneugens toxicity, Mutagens toxicity

Abstract

Risk assessments are increasingly reliant on information from in vitro assays. The in vitro micronucleus test (MNvit) is a genotoxicity test that detects chromosomal abnormalities, including chromosome breakage (clastogenicity) and/or whole chromosome loss (aneugenicity). In this study, MNvit datasets for 292 chemicals, generated by the US EPA's ToxCast program, were evaluated using a decision tree-based pipeline for hazard identification. Chemicals were tested with 19 concentrations (n = 1) up to 200 µM, in the presence and absence of Aroclor 1254-induced rat liver S9. To identify clastogenic chemicals, %MN values at each concentration were compared to a distribution of batch-specific solvent controls; this was followed by cytotoxicity assessment and benchmark concentration (BMC) analyses. The approach classified 157 substances as positives, 25 as negatives, and 110 as inconclusive. Using the approach described in Bryce et al. (Environ Mol Mutagen 52:280-286, 2011), we identified 15 (5%) aneugens. IVIVE (in vitro to in vivo extrapolation) was employed to convert BMCs into administered equivalent doses (AEDs). Where possible, AEDs were compared to points of departure (PODs) for traditional genotoxicity endpoints; AEDs were generally lower than PODs based on in vivo endpoints. To facilitate interpretation of in vitro MN assay concentration-response data for risk assessment, exposure estimates were utilized to calculate bioactivity exposure ratio (BER) values. BERs for 50 clastogens and two aneugens had AEDs that approached exposure estimates (i.e., BER < 100); these chemicals might be considered priorities for additional testing. This work provides a framework for the use of high-throughput in vitro genotoxicity testing for priority setting and chemical risk assessment., (© 2022. Crown.)

Published

2022

5. A new imaging platform (iScreen) allows for the concurrent assessment of micronucleus induction and genotoxic mode of action in human A375 cells.

Author

Sun X, Rubitski E, Spellman RA, Engel M, and Schuler M

Subjects

DNA Damage, Humans, Micronucleus Tests methods, Mutagens toxicity, Tubulin metabolism, Aneugens toxicity, Histones genetics

Abstract

Genotoxicity testing guidelines require the assessment of the clastogenic and aneugenic potential of compounds. While in vitro micronucleus assays detect both types of endpoints, it requires labor-intensive microscopic scoring and does not discriminate between the two modes of actions. Here, we present a novel high-content imaging platform in A375 human cells that addresses the need for rapid scoring while providing additional mechanistic information. We evaluated the new platform with 12 compounds, three compounds from each mechanistic class (clastogen, aneugen tubulin binder, aneugen aurora inhibitor, and nongenotoxicant) following 4- and 24-h compound treatments. The approach we developed is first discriminating between genotoxicant and nongenotoxicant using an image analysis algorithm to quantify micronucleus induction below a 60% cytotoxicity cutoff. Then it uses centromere protein A (CENPA) staining for the genotoxic compounds to discriminate between aneugens and clastogens. Lastly, we use phosphorylated histone H2AX Ser139 (γH2AX) staining to confirm clastogenicity and changes in phosphorylated histone 3 Ser10 (pH 3) and increases in polyploidy in mitotic cells to discriminate between aneugens that bind tubulin from those that affect aurora kinases. All compounds were correctly classified, and we showed by using benchmark dose-response analysis that the imaging platform in A375 cells is at least as sensitive as the MicroFlow® assay in TK6 cells for genotoxicant but appears to be more specific for the nongenotoxicants. A detailed comparison of the cell lines and a more comprehensive validation with a much larger compound set, predictive and dose-response modeling will be presented in the future., (© 2022 Environmental Mutagen Society.)

Published

2022

6. TubulinTracker, a Novel In Vitro Reporter Assay to Study Intracellular Microtubule Dynamics, Cell Cycle Progression, and Aneugenicity.

Author

Geijer ME, Moelijker N, Zhang G, Derr R, Osterlund T, Hendriks G, and Brandsma I

Subjects

Cell Division, Micronucleus Tests methods, Microtubules, Mutagens pharmacology, Tubulin, Aneugens toxicity, Poisons pharmacology

Abstract

Aneuploidy is characterized by the presence of an abnormal number of chromosomes and is a common hallmark of cancer. However, exposure to aneugenic compounds does not necessarily lead to cancer. Aneugenic compounds are mainly identified using the in vitro micronucleus assay but this assay cannot standardly discriminate between aneugens and clastogens and cannot be used to identify the exact mode-of-action (MOA) of aneugens; tubulin stabilization, tubulin destabilization, or inhibition of mitotic kinases. To improve the classification of aneugenic substances and determine their MOA, we developed and validated the TubulinTracker assay that uses a green fluorescent protein-tagged tubulin reporter cell line to study microtubule stability using flow cytometry. Combining the assay with a DNA stain also enables cell cycle analysis. Substances whose exposure resulted in an accumulation of cells in G2/M phase, combined with increased or decreased tubulin levels, were classified as tubulin poisons. All known tubulin poisons included were classified correctly. Moreover, we correctly classified compounds, including aneugens that did not affect microtubule levels. However, the MOA of aneugens not affecting tubulin stability, such as Aurora kinase inhibitors, could not be identified. Here, we show that the TubulinTracker assay can be used to classify microtubule stabilizing and destabilizing compounds in living cells. This insight into the MOA of aneugenic agents is important, eg, to support a weight-of-evidence approach for risk assessment, and the classification as an aneugen as opposed to a clastogen or mutagen, has a big impact on the assessment., (© The Author(s) 2022. Published by Oxford University Press on behalf of the Society of Toxicology. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2022

7. In vitro human cell-based aneugen molecular mechanism assay.

Author

Hall NE, Tichenor K, Bryce SM, Bemis JC, and Dertinger SD

Subjects

Humans, Micronucleus Tests methods, Microtubules, Mutagens pharmacology, Paclitaxel pharmacology, Aneugens toxicity, Tubulin

Abstract

This laboratory previously described an in vitro human cell-based assay and data analysis scheme that discriminates common molecular targets responsible for chemical-induced in vitro aneugenicity: tubulin destabilization, tubulin stabilization, and inhibition of Aurora kinases (Bernacki et al., Toxicol. Sci. 170 [2019] 382-393). The current report describes updated procedures that simplify benchtop processing and data analysis methods. For these experiments, human lymphoblastoid TK6 cells were exposed to each of 25 aneugens over a range of concentrations in the presence of fluorescent paclitaxel (488 Taxol). After a 4 h treatment period, cells were lysed and nuclei were stained with a nucleic acid dye and labeled with fluorescent antibodies against phospho-histone H3 (p-H3). Flow cytometric analyses revealed several unique signatures: tubulin stabilizers caused increased frequencies of p-H3-positive events with concentration-dependent increases in 488 Taxol-associated fluorescence; tubulin destabilizers caused increased frequencies of p-H3-positive events with concomitant decreases in 488 Taxol-associated fluorescence; and Aurora kinase B inhibitors caused reduced frequencies of p-H3-positive events and lower median fluorescent intensities of p-H3-positive events. These results demonstrate a simple rubric based on 488 Taxol- and p-H3-associated metrics can reliably discriminate between several commonly encountered aneugenic molecular mechanisms., (© 2022 Environmental Mutagen Society.)

Published

2022

8. The in vitro ToxTracker and Aneugen Clastogen Evaluation extension assay as a tool in the assessment of relative genotoxic potential of e-liquids and their aerosols.

Author

Czekala L, Chapman F, Simms L, Rudd K, Trelles Sticken E, Wieczorek R, Bode LM, Pani J, Moelijker N, Derr R, Brandsma I, Hendriks G, Stevenson M, and Walele T

Subjects

Aerosols adverse effects, Aerosols analysis, Animals, Cigarette Smoking adverse effects, DNA Damage, Glycerol analysis, Humans, Mice, Mice, Inbred C57BL, Mouse Embryonic Stem Cells, Mutagens toxicity, Nicotine analysis, Oxidative Stress, Propylene Glycol analysis, Risk Assessment, Smoke adverse effects, Smoking adverse effects, Aneugens toxicity, Electronic Nicotine Delivery Systems, Glycerol toxicity, Mutagenicity Tests methods, Nicotine toxicity, Propylene Glycol toxicity, Nicotiana toxicity

Abstract

In vitro (geno)toxicity assessment of electronic vapour products (EVPs), relative to conventional cigarette, currently uses assays, including the micronucleus and Ames tests. Whilst informative on induction of a finite endpoint and relative risk posed by test articles, such assays could benefit from mechanistic supplementation. The ToxTracker and Aneugen Clastogen Evaluation analysis can indicate the activation of reporters associated with (geno)toxicity, including DNA damage, oxidative stress, the p53-related stress response and protein damage. Here, we tested for the different effects of a selection of neat e-liquids, EVP aerosols and Kentucky reference 1R6F cigarette smoke samples in the ToxTracker assay. The assay was initially validated to assess whether a mixture of e-liquid base components, propylene glycol (PG) and vegetable glycerine (VG) had interfering effects within the system. This was achieved by spiking three positive controls into the system with neat PG/VG or phosphate-buffered saline bubbled (bPBS) PG/VG aerosol (nicotine and flavour free). PG/VG did not greatly affect responses induced by the compounds. Next, when compared to cigarette smoke samples, neat e-liquids and bPBS aerosols (tobacco flavour; 1.6% freebase nicotine, 1.6% nicotine salt or 0% nicotine) exhibited reduced and less complex responses. Tested up to a 10% concentration, EVP aerosol bPBS did not induce any ToxTracker reporters. Neat e-liquids, tested up to 1%, induced oxidative stress reporters, thought to be due to their effects on osmolarity in vitro. E-liquid nicotine content did not affect responses induced. Additionally, spiking nicotine alone only induced an oxidative stress response at a supraphysiological level. In conclusion, the ToxTracker assay is a quick, informative screen for genotoxic potential and mechanisms of a variety of (compositionally complex) samples, derived from cigarettes and EVPs. This assay has the potential for future application in the assessment battery for next-generation (smoking alternative) products, including EVPs., (© The Author(s) 2021. Published by Oxford University Press on behalf of the UK Environmental Mutagen Society.)

Published

2021

9. Potent aneugenicity of 1-methylpyrene in human cells dependent on metabolic activation by endogenous enzymes.

Author

Li Z, Yu H, Song M, Glatt H, Liu J, and Liu Y

Subjects

Activation, Metabolic drug effects, Aneugens metabolism, Aneugens toxicity, Cell Line, Tumor, Centromere Protein B metabolism, Centrosome drug effects, Hep G2 Cells, Humans, Micronucleus Tests, Microscopy, Fluorescence, Mutagens, Pyrenes metabolism, Spindle Apparatus drug effects, Micronuclei, Chromosome-Defective drug effects, Mitosis drug effects, Pyrenes toxicity

Abstract

1-Methylpyrene (1-MP) is a common environmental pollutant and animal carcinogen. After sequential activation by cytochromes P450 and sulfotransferases, it induced gene mutations and micronuclei in mammalian cells. The type of micronuclei formed, entire chromosomes or fragments, was not analysed. In this study, 1-MP and its primary metabolite, 1-hydroxymethylpyrene (1-HMP), were investigated for the induction of centromere-positive and -negative micronuclei in the human hepatoma cell line HepG2 and its derivative C3A, expressing relevant enzymes at higher levels. Under a short-exposure (9 h)/long-recovery regime (2 cell cycles in total), 1-MP and 1-HMP provided negative test results in HepG2 cells. However, they induced micronuclei in C3A cells, the effect being blocked by 1-aminobenzotriazole (inhibitor of cytochromes P450s) and reduced by pentachlorophenol (inhibitor of sulfotransferases). Immunofluorescence staining of centromere protein B in the micronuclei revealed purely clastogenic effects under this regime. Unexpectedly, 1-MP and 1-HMP at concentrations 1/5-1/4 of that required for micronuclei formation led to mitotic arrest and spindle aberrations, as detected by immunofluorescence staining of β- and γ-tubulin. Following extended exposure (72 h, 2 cell cycles, no recovery), damage to the spindle apparatus and centrosomes was detected at even lower concentrations, with concurrent formation of micronuclei. At low concentrations (1-8 µM 1-MP, 0.25-0.5 µM 1-HMP), the micronuclei induced were unexceptionally centromere-positive. Thus, the chromosome-damaging mechanism of 1-MP was regime and concentration dependent: potently aneugenic under persistent exposure, while clastogenic at higher concentrations following a short-exposure/long-recovery regime. This is a convincing evidence for the existence of metabolic activation-dependent aneugens.

Published

2021

10. Aneugen Versus Clastogen Evaluation and Oxidative Stress-Related Mode-of-Action Assessment of Genotoxic Compounds Using the ToxTracker Reporter Assay.

Author

Brandsma I, Moelijker N, Derr R, and Hendriks G

Subjects

Biomarkers metabolism, DNA Damage, Mutagenicity Tests, Oxidative Stress, Aneugens toxicity, Mutagens toxicity

Abstract

Understanding the mode-of-action (MOA) of genotoxic compounds and differentiating between direct DNA interaction and indirect genotoxicity is crucial for their reliable safety assessment. ToxTracker is a stem cell-based reporter assay that detects activation of various cellular responses that are associated with genotoxicity and cancer. ToxTracker consists of 6 different GFP reporter cell lines that can detect the induction of DNA damage, oxidative stress, and protein damage in a single test. The assay can thereby provide insight into the MOA of compounds. Genotoxicity is detected in ToxTracker by activation of 2 independent GFP reporters. Activation of the Bscl2-GFP reporter is associated with induction of DNA adducts and subsequent inhibition of DNA replication and the Rtkn-GFP reporter is activated following the formation of DNA double-strand breaks. Here, we show that the differential activation of these 2 genotoxicity reporters could be used to further differentiate between a DNA reactive and clastogenic or a non-DNA-reactive aneugenic MOA of genotoxic compounds. For further classification of aneugenic and clastogenic compounds, the ToxTracker assay was extended with cell cycle analysis and aneuploidy assessment. The extension was validated using a selection of 16 (genotoxic) compounds with a well-established MOA. Furthermore, indirect genotoxicity related to the production of reactive oxygen species was investigated using the DNA damage and oxidative stress ToxTracker reporters in combination with different reactive oxygen species scavengers. With these new extensions, ToxTracker was able to accurately classify compounds as genotoxic or nongenotoxic and could discriminate between DNA-reactive compounds, aneugens, and indirect genotoxicity caused by oxidative stress., (© The Author(s) 2020. Published by Oxford University Press on behalf of the Society of Toxicology. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2020

11. Image analysis of mechanistic protein biomarkers for the characterization of genotoxicants: Aneugens, clastogens, and reactive oxygen species inducers.

Author

Wilde S, Queisser N, and Sutter A

Subjects

Cell Line, Humans, Phosphorylation drug effects, Protein Processing, Post-Translational drug effects, Aneugens toxicity, Biomarkers metabolism, Image Processing, Computer-Assisted, Mutagens toxicity, Proteins metabolism, Reactive Oxygen Species metabolism

Abstract

The early detection of genotoxicity contributes to cutting-edge drug discovery and development, requiring effective identification of genotoxic hazards posed by drugs while providing mode of action (MoA) information in a high throughput manner. In other words, there is a need to complement standard genotoxicity testing according to the test battery given in ICH S2(R1) with new in vitro tools, thereby contributing to a more in-depth analysis of genotoxic effects. Here, we report on a proof-of-concept MoA approach based on post-translational modifications of proteins (PTMs) indicative of clastogenic and aneugenic effects in TK6 cells using imaging technology (with automated analysis). Cells were exposed in a 96-well plate format with a panel of reference (geno)toxic compounds and subsequently analyzed at 4 and 24 hr to detect dose-dependent changes in PTMs, relevant for mechanistic analysis. All tested compounds that interfere with the spindle apparatus yielded a BubR1 (S640) (3/3) and phospho-histone H3 (S28) (7/9) positive dose-response reflecting aneugenicity, whereas compounds inducing DNA double-strand-breaks were associated with positive FANCD2 (S1404) and 53BP1 (S1778) responses pointing to clastogenicity (2/3). The biomarker p53 (K373) was able to distinguish genotoxicants from non-genotoxicants (2/4), while the induction of reactive oxygen species (ROS), potentially causing DNA damage, was associated with a positive Nrf2 (S40) response (2/2). This work demonstrates that genotoxicants and non-genotoxicants induce different biomarker responses in TK6 cells which can be used for reliable classification into MoA groups (aneugens/clastogens/non-genotoxicants/ROS inducers), supporting a more in-depth safety assessment of drug candidates., (© 2020 The Authors. Environmental and Molecular Mutagenesis published by Wiley Periodicals, Inc. on behalf of Environmental Mutagen Society.)

Published

2020

12. Aneugenic, clastogenic, and multi-toxic effects of diethyl phthalate exposure.

Author

Demirtaş G, Çavuşoğlu K, and Yalçin E

Subjects

Malondialdehyde, Onions, Plant Roots, Toxicity Tests, Aneugens toxicity, Phthalic Acids toxicity

Abstract

Diethyl phthalate (DEP) is a compound which is used in many industrial fields, especially in cosmetic sector and causes contamination in air, water, and soil due to its widespread usage. In this study, the potential toxic effects of DEP were investigated by using physiological, anatomical, biochemical, and cytogenetic parameters in Allium cepa. The micronucleus (MN) test specifically aimed to elucidate the aneugenic and clastogenic effects of DEP. Physiological effects were determined by germination percentage, root length, weight gain parameters, and cytogenetic effects were investigated by mitotic index (MI) and chromosomal abnormality (CA) test. Malondialdehyde (MDA) level, catalase (CAT), and superoxide dismutase (SOD) activities were investigated as oxidative damage indicators and structural changes were investigated with anatomical cross sections. For this purpose, Allium cepa bulbs were divided into four groups as control and application groups and the application groups were germinated with 1.0, 2.2, and 4.4 μM DEP for 72 h. As a result, it was determined that germination percentage, weight gain and root length decreased, CA frequency, MDA level, SOD, and CAT activities were increased in DEP-treated groups when compared with the control group. DEP has been found to induce CA in root tip cells such as fragment, chromosome bridge, c-mitosis, sticky chromosome, and unequal chromatin distribution. When MN formations induced by DEP application were examined, both large-scale and small-scale MNs were determined. MN formation in both sizes indicates that DEP has both clastogenic and aneugenic effects. And also, it was found that DEP application caused structural changes and especially anatomic damages such as necrosis in 4.4 μM DEP application. As a result, it was found that DEP caused various toxic effects depending on the dose and that A. cepa test material was a useful indicator in determining these effects.

Published

2020

13. Mode-of-action analysis of the effects induced by nicotine in the in vitro micronucleus assay.

Author

Smart DJ, Helbling FR, Verardo M, McHugh D, and Vanscheeuwijck P

Subjects

Aneugens toxicity, Animals, CHO Cells, Cell Line, Cell Nucleus metabolism, Cricetulus, DNA drug effects, DNA Damage drug effects, Micronucleus Tests methods, Microtubules drug effects, Mutagenicity Tests methods, Mutagens toxicity, Nicotine analogs & derivatives, Phosphorylation drug effects, Tubulin metabolism, Cell Nucleus drug effects, Nicotine toxicity

Abstract

Nicotine's genotoxic potential has been extensively studied in vitro. While the results of mammalian cell-based studies have inferred that it can potentially damage chromosomes, in general and with few exceptions, adverse DNA effects have been observed primarily at supraphysiological concentrations in nonregulatory assays that provide little information on its mode-of-action (MoA). In this study, a modern-day regulatory genotoxicity assessment was conducted using a flow cytometry-based in vitro micronucleus (MN) assay, Good Laboratory Practice study conditions, Chinese hamster ovary cells of known provenance, and acceptance/evaluation criteria from the current OECD Test Guideline 487. Nicotine concentrations up to 3.95 mM had no effect on background levels of DNA damage; however, concentrations above the point-of-departure range of 3.94-4.54 mM induced increases in MN and hypodiploid nuclei, indicating a possible aneugenicity hazard. Follow-up experiments designed to elucidate nicotine's MoA revealed cellular vacuolization, accompanying distortions in microtubules, inhibition of tubulin polymerization, centromere-positive DNA, and multinucleate cells at MN-inducing concentrations. Vacuoles likely originated from acidic cellular compartments (e.g., lysosomes). Remarkably, genotoxicity was suppressed by chemicals that raised the luminal pH of these organelles. Other endpoints (e.g., changes in phosphorylated histones) measured in the study cast doubt on the biological relevance of this apparent genotoxicity. In addition, three major nicotine metabolites, including cotinine, had no MN effects but nornicotine induced a nicotine-like profile. It is possible that nicotine's lysosomotropic properties drive the genotoxicity observed in vitro; however, the potency and mechanistic insights revealed here indicate that it is likely of minimal physiological relevance for nicotine consumers. Environ. Mol. Mutagen. 2019. © 2019 The Authors. Environmental and Molecular Mutagenesis published by Wiley Periodicals, Inc. on behalf of Environmental Mutagen Society., (© 2019 The Authors. Environmental and Molecular Mutagenesis published by Wiley Periodicals, Inc. on behalf of Environmental Mutagen Society.)

Published

2019

14. Chemically induced aneuploidy in germ cells. Part II of the report of the 2017 IWGT workgroup on assessing the risk of aneugens for carcinogenesis and hereditary diseases.

Author

Pacchierotti F, Masumura K, Eastmond DA, Elhajouji A, Froetschl R, Kirsch-Volders M, Lynch A, Schuler M, Tweats D, and Marchetti F

Subjects

Animals, Germ Cells pathology, Humans, Risk Factors, Aneugens toxicity, Aneuploidy, Carcinogenesis, Genetic Diseases, Inborn pathology, Germ Cells drug effects

Abstract

As part of the 7th International Workshops on Genotoxicity Testing held in Tokyo, Japan in November 2017, a workgroup of experts reviewed and assessed the risk of aneugens for human health. The present manuscript is one of three manuscripts from the workgroup and reports on the unanimous consensus reached on the evidence for aneugens affecting germ cells, their mechanisms of action and role in hereditary diseases. There are 24 chemicals with strong or sufficient evidence for germ cell aneugenicity providing robust support for the ability of chemicals to induce germ cell aneuploidy. Interference with microtubule dynamics or inhibition of topoisomerase II function are clear characteristics of germ cell aneugens. Although there are mechanisms of chromosome segregation that are unique to germ cells, there is currently no evidence for germ cell-specific aneugens. However, the available data are heavily skewed toward chemicals that are aneugenic in somatic cells. Development of high-throughput screening assays in suitable animal models for exploring additional targets for aneuploidy induction, such as meiosis-specific proteins, and to prioritize chemicals for the potential to be germ cell aneugens is encouraged. Evidence in animal models support that: oocytes are more sensitive than spermatocytes and somatic cells to aneugens; exposure to aneugens leads to aneuploid conceptuses; and, the frequencies of aneuploidy are similar in germ cells and zygotes. Although aneuploidy in germ cells is a significant cause of infertility and pregnancy loss in humans, there is currently limited evidence that aneugens induce hereditary diseases in human populations because the great majority of aneuploid conceptuses die in utero. Overall, the present work underscores the importance of protecting the human population from exposure to chemicals that can induce aneuploidy in germ cells that, in contrast to carcinogenicity, is directly linked to an adverse outcome., (Crown Copyright © 2019. Published by Elsevier B.V. All rights reserved.)

Published

2019

15. Predictions of genotoxic potential, mode of action, molecular targets, and potency via a tiered multiflow® assay data analysis strategy.

Author

Dertinger SD, Kraynak AR, Wheeldon RP, Bernacki DT, Bryce SM, Hall N, Bemis JC, Galloway SM, Escobar PA, and Johnson GE

Subjects

Aneugens toxicity, Biological Assay methods, Biomarkers metabolism, Cell Line, DNA Damage drug effects, Data Analysis, Flow Cytometry methods, Histones metabolism, Humans, Machine Learning, Micronucleus Tests methods, Mutagenicity Tests methods, Phosphorylation drug effects, Tumor Suppressor Protein p53 metabolism, Mutagens toxicity

Abstract

The in vitro MultiFlow® DNA Damage Assay multiplexes γH2AX, p53, phospho-histone H3, and polyploidization biomarkers into a single flow cytometric analysis. The current report describes a tiered sequential data analysis strategy based on data generated from exposure of human TK6 cells to a previously described 85 chemical training set and a new pharmaceutical-centric test set (n = 40). In each case, exposure was continuous over a range of closely spaced concentrations, and cell aliquots were removed for analysis following 4 and 24 hr of treatment. The first data analysis step focused on chemicals' genotoxic potential, and for this purpose, we evaluated the performance of a machine learning (ML) ensemble, a rubric that considered fold increases in biomarkers against global evaluation factors (GEFs), and a hybrid strategy that considered ML and GEFs. This first tier further used ML output and/or GEFs to classify genotoxic activity as clastogenic and/or aneugenic. Test set results demonstrated the generalizability of the first tier, with particularly good performance from the ML ensemble: 35/40 (88%) concordance with a priori genotoxicity expectations and 21/24 (88%) agreement with expected mode of action (MoA). A second tier applied unsupervised hierarchical clustering to the biomarker response data, and these analyses were found to group certain chemicals, especially aneugens, according to their molecular targets. Finally, a third tier utilized benchmark dose analyses and MultiFlow biomarker responses to rank genotoxic potency. The relevance of these rankings is supported by the strong agreement found between benchmark dose values derived from MultiFlow biomarkers compared to those generated from parallel in vitro micronucleus analyses. Collectively, the results suggest that a tiered MultiFlow data analysis pipeline is capable of rapidly and effectively identifying genotoxic hazards while providing additional information that is useful for modern risk assessments-MoA, molecular targets, and potency. Environ. Mol. Mutagen. 60:513-533, 2019. © 2019 Wiley Periodicals, Inc., (© 2019 Wiley Periodicals, Inc.)

Published

2019

16. Assessing effects of germline exposure to environmental toxicants by high-throughput screening in C. elegans.

Author

Shin N, Cuenca L, Karthikraj R, Kannan K, and Colaiácovo MP

Subjects

Aneugens toxicity, Aneuploidy, Animals, Animals, Genetically Modified, Benzothiazoles toxicity, Caenorhabditis elegans embryology, Caenorhabditis elegans genetics, DNA Breaks, Double-Stranded, Dibutyl Phthalate toxicity, Environmental Exposure, Insecticides toxicity, Meiosis drug effects, Permethrin toxicity, Plasticizers toxicity, Thiocyanates toxicity, Caenorhabditis elegans drug effects, Drug Evaluation, Preclinical methods, Environmental Pollutants toxicity, Germ Cells drug effects, High-Throughput Screening Assays methods

Abstract

Chemicals that are highly prevalent in our environment, such as phthalates and pesticides, have been linked to problems associated with reproductive health. However, rapid assessment of their impact on reproductive health and understanding how they cause such deleterious effects, remain challenging due to their fast-growing numbers and the limitations of various current toxicity assessment model systems. Here, we performed a high-throughput screen in C. elegans to identify chemicals inducing aneuploidy as a result of impaired germline function. We screened 46 chemicals that are widely present in our environment, but for which effects in the germline remain poorly understood. These included pesticides, phthalates, and chemicals used in hydraulic fracturing and crude oil processing. Of the 46 chemicals tested, 41% exhibited levels of aneuploidy higher than those detected for bisphenol A (BPA), an endocrine disruptor shown to affect meiosis, at concentrations correlating well with mammalian reproductive endpoints. We further examined three candidates eliciting aneuploidy: dibutyl phthalate (DBP), a likely endocrine disruptor and frequently used plasticizer, and the pesticides 2-(thiocyanomethylthio) benzothiazole (TCMTB) and permethrin. Exposure to these chemicals resulted in increased embryonic lethality, elevated DNA double-strand break (DSB) formation, activation of p53/CEP-1-dependent germ cell apoptosis, chromosomal abnormalities in oocytes at diakinesis, impaired chromosome segregation during early embryogenesis, and germline-specific alterations in gene expression. This study indicates that this high-throughput screening system is highly reliable for the identification of environmental chemicals inducing aneuploidy, and provides new insights into the impact of exposure to three widely used chemicals on meiosis and germline function., Competing Interests: The authors have declared that no competing interests exist.

Published

2019

17. Assessment of a panel of cellular biomarkers and the kinetics of their induction in comparing genotoxic modes of action in HepG2 cells.

Author

Kopp B, Dario M, Zalko D, and Audebert M

Subjects

Aneugens toxicity, Biomarkers analysis, Hep G2 Cells, Hepatocytes metabolism, Histones analysis, Histones genetics, Humans, Kinetics, Oxidative Stress drug effects, Phosphorylation, DNA Damage drug effects, Hepatocytes drug effects, Mutagenicity Tests methods, Mutagens toxicity

Abstract

One major challenge for in vitro genotoxicology is the determination of the genotoxic mode of action of tested compounds. The quantification of the phosphorylation of the histones H3 (pH3) and H2AX (γH2AX) allows an efficient discrimination between aneugenic and clastogenic compounds. However, these two biomarkers do not permit to deduct the specific mechanisms involved in the action of clastogenic compounds. The aim of this study was to investigate other possible cellular biomarkers allowing differentiating clastogenic properties. For this purpose, we analyzed γH2AX and pH3 plus six other biomarkers involved in the DNA damage signaling pathway in HepG2 cells treated with nine clastogens exhibiting different mechanisms of action, as well as one aneugen. All compounds were tested at various concentrations and with kinetics of 2, 6, 24 and 48 hr. Our results demonstrate the activation of the investigated biomarkers by the tested compounds in a time and concentration dependent manner. Notably, we observed for some nondirect genotoxic clastogens, notably dNTPs pool imbalance inducers, a different kinetic of DNA damage induction compared with direct genotoxins (oxidative stress). However, no specific biomarker signature of mechanisms of clastogenic action could be specified. Multiparametric analysis demonstrates a strong correlation between γH2AX and p-p53(S15) for clastogen compounds. Environ. Mol. Mutagen. 59:516-528, 2018. © 2018 Wiley Periodicals, Inc., (Copyright © 2018 Wiley Periodicals, Inc.)

Published

2018

18. Development of a data-processing method based on Bayesian k-means clustering to discriminate aneugens and clastogens in a high-content micronucleus assay.

Author

Huang ZH, Li N, Rao KF, Liu CT, Huang Y, Ma M, and Wang ZJ

Subjects

Automation, Laboratory, Bayes Theorem, Cell Line, Tumor, Cluster Analysis, Humans, Reproducibility of Results, Algorithms, Aneugens toxicity, High-Throughput Screening Assays, Micronuclei, Chromosome-Defective chemically induced, Micronucleus Tests methods, Mutagens toxicity

Abstract

Genotoxicants can be identified as aneugens and clastogens through a micronucleus (MN) assay. The current high-content screening-based MN assays usually discriminate an aneugen from a clastogen based on only one parameter, such as the MN size, intensity, or morphology, which yields low accuracies (70-84%) because each of these parameters may contribute to the results. Therefore, the development of an algorithm that can synthesize high-dimensionality data to attain comparative results is important. To improve the automation and accuracy of detection using the current parameter-based mode of action (MoA), the MN MoA signatures of 20 chemicals were systematically recruited in this study to develop an algorithm. The results of the algorithm showed very good agreement (93.58%) between the prediction and reality, indicating that the proposed algorithm is a validated analytical platform for the rapid and objective acquisition of genotoxic MoA messages.

Published

2018

19. BaP exposure causes oocyte meiotic arrest and fertilization failure to weaken female fertility.

Author

Zhang M, Miao Y, Chen Q, Cai M, Dong W, Dai X, Lu Y, Zhou C, Cui Z, and Xiong B

Subjects

Aneugens toxicity, Animals, Apoptosis drug effects, Environmental Pollutants toxicity, Female, Infertility, Female pathology, Kinetochores drug effects, Male, Meiosis drug effects, Mice, Mice, Inbred ICR, Microtubules drug effects, Oocytes metabolism, Oxidative Stress drug effects, Reactive Oxygen Species metabolism, Sperm-Ovum Interactions drug effects, Benzo(a)pyrene toxicity, Fertilization drug effects, Infertility, Female chemically induced, Oocytes drug effects, Oocytes pathology

Abstract

Benzo[a]pyrene (BaP) is a ubiquitous environmental pollutant and carcinogen that is frequently found in particulate matter, with a diameter of ≤2.5 μm (PM2.5). It has been reported to interrupt the normal reproductive system, but the exact molecular basis has not been clearly defined. To understand the underlying mechanisms regarding how BaP exposure disrupts female fertility, we evaluated oocyte quality by assessing the critical regulators and events during oocyte meiotic maturation and fertilization. We found that BaP exposure compromised the mouse oocyte meiotic progression by disrupting normal spindle assembly, chromosome alignment, and kinetochore-microtubule attachment, consequently leading to the generation of aneuploid eggs. In addition, BaP administration significantly decreased the fertilization rate of mouse eggs by reducing the number of sperm binding to the zona pellucida, which was consistent with the premature cleavage of N terminus of zona pellucida sperm-binding protein 2 and precocious exocytosis of ovastacin. Furthermore, BaP exposure interfered with the gamete fusion process by perturbing the localization and protein level of Juno. Notably, we found that BaP exposure induced oxidative stress with an increased level of reactive oxygen species and apoptosis in oocytes and thereby led to the deterioration of critical regulators and events during oocyte meiotic progression and fertilization. Our data document that BaP exposure reduces female fertility via impairing oocyte maturation and fertilization ability induced by oxidative stress and early apoptosis in murine models.-Zhang, M., Miao, Y., Chen, Q., Cai, M., Dong, W., Dai, X., Lu, Y., Zhou, C., Cui, Z., Xiong, B. BaP exposure causes oocyte meiotic arrest and fertilization failure to weaken female fertility., (© FASEB.)

Published

2018

20. Premature chromatid separation and altered proliferation of human leukocytes treated with vanadium (III) oxide.

Author

Mateos-Nava RA, Rodríguez-Mercado JJ, and Altamirano-Lozano MA

Subjects

Adult, Aneugens toxicity, Cell Cycle drug effects, Cell Proliferation drug effects, Cell Survival drug effects, Cells, Cultured, Centromere metabolism, Chromatids metabolism, Humans, Leukocytes cytology, Leukocytes immunology, Leukocytes metabolism, Male, Mitotic Index, Mutagenicity Tests, Osmolar Concentration, Sister Chromatid Exchange drug effects, Young Adult, Carcinogens, Environmental toxicity, Centromere drug effects, Chromatids drug effects, DNA Replication drug effects, Leukocytes drug effects, Oxides toxicity, Vanadium Compounds toxicity

Abstract

Vanadium is a widely distributed metal in the Earth's surface and is released into the environment by either natural or anthropogenic causes. Vanadium (III) oxide (V 2 O 3 ) is present in the environment, and many organisms are exposed to this compound; however, its effects at the cellular and genetic levels are still unknown. Therefore, in this study, the ability of V 2 O 3 to induce chromosomal damage and impair cell proliferation was tested on human leukocytes in vitro. The cultures cells were treated for 48 h with different concentrations 2, 4, 8 or 16 μg/mL of V 2 O 3 , and we use the sister chromatid exchange's (SCE) test and the viability assay to evaluate the effects. In the results, no change was observed in either the viability or the frequency of SCE; however, a significant increase was observed in the incidence of premature chromatid separation (PCS), and a decrease was observed in both the mitotic index (MI) and the replication index (RI). Therefore, it can be suggested that V 2 O 3 induces a genotoxic effect at the centromere level, indicating that it is a cause of aneuploidy that is capable of altering cell cycle progression.

Published

2017

21. From the Cover: Does the Assessment of Nondisjunction Provide a More Sensitive Assay for the Detection of Aneugens?

Author

Elloway JM, Davies AK, Hayes JE, and Doherty AT

Subjects

Cell Line, Transformed, Chromosomes, Human, Cytokinesis drug effects, Humans, In Situ Hybridization, Fluorescence, Micronucleus Tests, Aneugens toxicity, Aneuploidy, Nondisjunction, Genetic drug effects

Abstract

The detection of aneugenic chemicals is important due to the implications of aneuploidy for human health. Aneuploidy can result from chromosome loss or nondisjunction due to chromosome mis-segregation at anaphase. Frequently, aneugens are detected using the in vitro micronucleus assay (IVM), with either centromere or kinetochore labeling. However, this method does not consider nondisjunction, the suggested predominant mechanism of spindle poison induced aneugenicity in primary human lymphocytes. Therefore, the IVM may be relatively insensitive in detecting aneuploidy. To investigate whether chromosome distribution analysis, specifically of nondisjunction, using chromosome-specific centromeric probes provides a more sensitive assay for aneugen detection, six reference aneugens with differing modes of action were tested on human lymphoblastoid TK6 cells. The results show that chromosome loss is a substantial part of the process leading to aneuploidy in TK6 cells. This differs from previous studies on human lymphocytes where nondisjunction has been described as the major mechanism of aneugenicity. However, in the current study more cells and types of aneugenic damage were analyzed. Although compound specific effects on nondisjunction were identified, chromosome distribution analysis did not provide increased sensitivity for the detection of aneugens: For the six reference aneugens examined, chromosome loss was shown at the same concentrations or lower than nondisjunction, even when nondisjunction levels were comparatively high. Therefore, in TK6 cells methods that detect chromosome loss, eg, the IVM, provide a more sensitive technique for the detection of aneugens than the measurement of nondisjunction., (© The Author 2017. Published by Oxford University Press on behalf of the Society of Toxicology. All rights reserved. For Permissions, please e-mail: journals.permissions@oup.com.)

Published

2017

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

Author

Bryce SM, Bernacki DT, Bemis JC, Spellman RA, Engel ME, Schuler M, Lorge E, Heikkinen PT, Hemmann U, Thybaud V, Wilde S, Queisser N, Sutter A, Zeller A, Guérard M, Kirkland D, and Dertinger SD

Subjects

Aneugens toxicity, Animals, Cell Culture Techniques, Histones genetics, Humans, Logistic Models, Phosphorylation, Pilot Projects, Reproducibility of Results, Robotics, Sensitivity and Specificity, Tumor Suppressor Protein p53 genetics, DNA Damage, Flow Cytometry methods, Laboratories standards, Mutagenicity Tests methods, Mutagens toxicity

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., (© 2017 Wiley Periodicals, Inc.)

Published

2017

23. γH2AX and p53 responses in TK6 cells discriminate promutagens and nongenotoxicants in the presence of rat liver S9.

Author

Bernacki DT, Bryce SM, Bemis JC, Kirkland D, and Dertinger SD

Subjects

Activation, Metabolic, Aneugens metabolism, Aneugens toxicity, Animals, Biomarkers analysis, Cell Culture Techniques, Cell Line, Tumor, Cell Survival drug effects, Humans, Liver metabolism, Logistic Models, Mutagens metabolism, Rats, Supervised Machine Learning, Flow Cytometry methods, Histones biosynthesis, Mutagenicity Tests methods, Mutagens toxicity, Tumor Suppressor Protein p53 metabolism

Abstract

Previous work with a diverse set of reference chemicals suggests that an in vitro multiplexed flow cytometry-based assay (MultiFlow™ DNA Damage Kit-p53, γH2AX, Phospho-Histone H3) can distinguish direct-acting clastogens and aneugens from nongenotoxicants (Bryce SM et al. []: Environ Mol Mutagen 57:171-189). This work extends this line of investigation to include compounds that require metabolic activation to form reactive electrophiles. For these experiments, TK6 cells were exposed to 11 promutagens and 37 presumed nongenotoxicants in 96 well plates. Unless precipitation or foreknowledge about cytotoxicity suggested otherwise, the highest concentration was 1 mM. Exposure occurred for 4 hr after which time cells were washed to remove S9 and test article. Immediately following the wash and again at 24 hr, cell aliquots were added to wells of a microtiter plate containing the working detergent/stain/antibody cocktail. After a brief incubation, robotic sampling was employed for walk-away flow cytometric data acquisition. Univariate logistic regression analyses indicated that γH2AX induction and p53 activation provide the greatest degree of discrimination between clastogens and nongenotoxicants. Multivariate prediction algorithms that incorporated both of these endpoints, in each combination of time points, were evaluated. The best performing models correctly predicted 9 clastogens out of 11 and 36 nongenotoxicants out of 37. These results are encouraging as they suggest that an efficient and highly scalable multiplexed assay can effectively identify clastogenic chemicals that require bioactivation. More work is planned with a broader range of chemicals, additional cell lines, and other laboratories to further evaluate the merits and limitations of this approach. Environ. Mol. Mutagen. 57:546-558, 2016. © 2016 Wiley Periodicals, Inc., (© 2016 Wiley Periodicals, Inc.)

Published

2016

24. Complementarity of phosphorylated histones H2AX and H3 quantification in different cell lines for genotoxicity screening.

Author

Khoury L, Zalko D, and Audebert M

Subjects

Aneugens metabolism, Aneugens toxicity, Biomarkers analysis, Biomarkers metabolism, Biotransformation, Cell Line, Tumor, Cell Survival drug effects, Data Interpretation, Statistical, Histones metabolism, Humans, Mutagens metabolism, Phosphorylation, Histones analysis, Mutagenicity Tests methods, Mutagens toxicity

Abstract

The in vitro micronucleus assay is broadly used, but is not per se able to discriminate aneugenic from clastogenic compounds, and cytotoxicity can be a confounding factor. In vitro genotoxicity assays generally rely on cell lines with limited metabolic capabilities. Recently, the use of histone H2AX and H3 phosphorylation markers (γH2AX and p-H3) was proposed to discriminate aneugenic from clastogenic chemicals. The aim of the present study was to develop a new genotoxic screening strategy based on the use of the γH2AX and p-H3 biomarkers in combination with cell lines with distinct biotransformation properties. First, we tested a training set of 20 model chemicals comprised of 10 aneugens, five clastogens and five cytotoxics on three human cell lines (HepG2, LS-174T and ACHN). Our data confirm the robustness of these two biomarkers to discriminate efficiently clastogens, aneugens and misleading cytotoxic chemicals in HepG2 cells. Aneugenic compounds induced either an increase or a decrease in p-H3 depending on their mode of action. Clastogens induced γH2AX, and cytotoxic compounds generated a marked decrease in these two biomarkers. Moreover, the use of different cell lines permits to discriminate direct from bioactivated genotoxins without the need of an exogenous metabolic activation system. Finally, we further evaluated this strategy using a test set of 13 chemicals with controversial genotoxic potential. The resulting data demonstrate that the combined analysis of γH2AX and p-H3 is an efficient strategy. Notably, we demonstrated that three compounds (fisetin, hydroquinone and okadaic acid) display both aneugenic and clastogenic properties.

Published

2016

25. Genotoxicity of flubendazole and its metabolites in vitro and the impact of a new formulation on in vivo aneugenicity.

Author

Tweats DJ, Johnson GE, Scandale I, Whitwell J, and Evans DB

Subjects

Activation, Metabolic, Aneugens metabolism, Animals, Antinematodal Agents metabolism, Antinematodal Agents toxicity, Cells, Cultured, Chromosomes, Human drug effects, DNA drug effects, Humans, Lymphocytes metabolism, Male, Mebendazole metabolism, Mebendazole toxicity, Micronucleus Tests, Mutagens metabolism, Mutagens toxicity, Rats, Aneugens toxicity, Chromosome Aberrations, DNA Damage, Lymphocytes drug effects, Mebendazole analogs & derivatives

Abstract

The anti-parasitic benzimidazole flubendazole has been used for many years to treat intestinal infections in humans and animals. Previous genotoxicity studies have shown that the compound is not a bacterial mutagen and a bone marrow micronucleus test, using a formulation that limited systemic absorption, was negative. The purpose of this study is to explore the genotoxicity of flubendazole and its main metabolites in in vitro micronucleus studies and to test a new oral formulation that improves systemic absorption in an in vivo micronucleus test. The isolated metabolites were also screened using the Ames test for bacterial mutagenicity. It was found that flubendazole, like other chemically related benzimidazoles used in anti-parasitic therapies, is a potent aneugen in vitro The hydrolysed metabolite of flubendazole is negative in these tests, but the reduced metabolite (R- and S-forms) shows both aneugenic and clastogenic activity. However, in vitro micronucleus tests of flubendazole in the presence of rat liver S9 gave almost identical signals for aneugenicity as they did in the absence of S9, suggesting that any clastogenicity from the reduced metabolite is not sufficient to change the overall profile. Like flubendazole itself, both metabolites are negative in the Ames test. Analysis of dose-response curves from the in vitro tests, using recently developed point of departure approaches, demonstrate that the aneugenic potency of flubendazole is very similar to related anti-parasitic benzimidazoles, including albendazole, which is used in mass drug administration programmes to combat endemic filarial diseases. The in vivo micronucleus test of the new formulation of flubendazole also showed evidence of induced aneugenicity. Analysis of the in vivo data allowed a reference dose for aneugenicity to be established which can be compared with therapeutic exposures of flubendazole when this has been established. Analysis of the plasma from the animals used in the in vivo micronucleus test showed that there is increased exposure to flubendazole compared with previously tested formulations, as well as significant formation of the non-genotoxic hydrolysed metabolite of flubendazole and small levels of the reduced metabolite. In conclusion, this study shows that flubendazole is a potent aneugen in vitro with similar potency to chemically related benzimidazoles currently used as anti-parasitic therapies. The reduced metabolite also has aneugenic properties as well as clastogenic properties. Treatment with a new formulation of flubendazole that allows increased systemic exposure, compared with previously used formulations, also results in detectable aneugenicity in vivo. Based on the lack of carcinogenicity of this class of benzimidazoles and the intended short-term dosing, it is unlikely that flubendazole treatment will pose a carcinogenic risk to patients., (© The Author 2015. Published by Oxford University Press on behalf of the UK Environmental Mutagen Society.)

Published

2016

26. Genotoxic mode of action predictions from a multiplexed flow cytometric assay and a machine learning approach.

Author

Bryce SM, Bernacki DT, Bemis JC, and Dertinger SD

Subjects

Algorithms, Aneugens toxicity, Automation, Laboratory methods, Biomarkers analysis, Cell Line drug effects, DNA Damage drug effects, Histones metabolism, Humans, Mutagens toxicity, Reproducibility of Results, Tumor Suppressor Protein p53 genetics, Flow Cytometry methods, Machine Learning, Mutagenicity Tests methods

Abstract

Several endpoints associated with cellular responses to DNA damage as well as overt cytotoxicity were multiplexed into a miniaturized, "add and read" type flow cytometric assay. Reagents included a detergent to liberate nuclei, RNase and propidium iodide to serve as a pan-DNA dye, fluorescent antibodies against γH2AX, phospho-histone H3, and p53, and fluorescent microspheres for absolute nuclei counts. The assay was applied to TK6 cells and 67 diverse reference chemicals that served as a training set. Exposure was for 24 hrs in 96-well plates, and unless precipitation or foreknowledge about cytotoxicity suggested otherwise, the highest concentration was 1 mM. At 4- and 24-hrs aliquots were removed and added to microtiter plates containing the reagent mix. Following a brief incubation period robotic sampling facilitated walk-away data acquisition. Univariate analyses identified biomarkers and time points that were valuable for classifying agents into one of three groups: clastogenic, aneugenic, or non-genotoxic. These mode of action predictions were optimized with a forward-stepping process that considered Wald test p-values, receiver operator characteristic curves, and pseudo R(2) values, among others. A particularly high performing multinomial logistic regression model was comprised of four factors: 4 hr γH2AX and phospho-histone H3 values, and 24 hr p53 and polyploidy values. For the training set chemicals, the four-factor model resulted in 94% concordance with our a priori classifications. Cross validation occurred via a leave-one-out approach, and in this case 91% concordance was observed. A test set of 17 chemicals that were not used to construct the model were evaluated, some of which utilized a short-term treatment in the presence of a metabolic activation system, and in 16 cases mode of action was correctly predicted. These initial results are encouraging as they suggest a machine learning strategy can be used to rapidly and reliably predict new chemicals' genotoxic mode of action based on data from an efficient and highly scalable multiplexed assay., (© 2016 Wiley Periodicals, Inc.)

Published

2016

27. Updated recommended lists of genotoxic and non-genotoxic chemicals for assessment of the performance of new or improved genotoxicity tests.

Author

Kirkland D, Kasper P, Martus HJ, Müller L, van Benthem J, Madia F, and Corvi R

Subjects

Animals, Carcinogens toxicity, Cell Line, Tumor, Chromosome Aberrations chemically induced, Databases, Factual, Escherichia coli drug effects, Escherichia coli growth & development, Humans, Mice, Rodentia, Sensitivity and Specificity, Aneugens toxicity, DNA Damage drug effects, Mutagenicity Tests methods

Abstract

In 2008 we published recommendations on chemicals that would be appropriate to evaluate the sensitivity and specificity of new/modified mammalian cell genotoxicity tests, in particular to avoid misleading positive results. In light of new data it is appropriate to update these lists of chemicals. An expert panel was convened and has revised the recommended chemicals to fit the following different sets of characteristics: • Group 1: chemicals that should be detected as positive in in vitro mammalian cell genotoxicity tests. Chemicals in this group are all in vivo genotoxins at one or more endpoints, either due to DNA-reactive or non DNA-reactive mechanisms. Many are known carcinogens with a mutagenic mode of action, but a sub-class of probable aneugens has been introduced. • Group 2: chemicals that should give negative results in in vitro mammalian cell genotoxicity tests. Chemicals in this group are usually negative in vivo and non-DNA-reactive. They are either non-carcinogenic or rodent carcinogens with a non-mutagenic mode of action. • Group 3: chemicals that should give negative results in in vitro mammalian cell genotoxicity tests, but have been reported to induce gene mutations in mouse lymphoma cells, chromosomal aberrations or micronuclei, often at high concentrations or at high levels of cytotoxicity. Chemicals in this group are generally negative in vivo and negative in the Ames test. They are either non-carcinogenic or rodent carcinogens with an accepted non-mutagenic mode of action. This group contains comments as to any conditions that can be identified under which misleading positive results are likely to occur. This paper, therefore, updates these three recommended lists of chemicals and describes how these should be used for any test evaluation program., (Copyright © 2015 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2016

28. Use of Ciliogenesis to Detect Aneugens: The Role of Primary Cilia.

Author

Divi KV, Ward Y, Poirier MC, and Olivero OA

Subjects

Cell Line, Centrosome drug effects, Centrosome ultrastructure, Cilia genetics, Retinal Pigment Epithelium cytology, Retinal Pigment Epithelium drug effects, Retinal Pigment Epithelium ultrastructure, Aneugens toxicity, Aneuploidy, Cilia drug effects, DNA Damage, Zidovudine toxicity

Abstract

Primary cilia arise from the centrosomes of quiescent or post-mitotic cells, and serve as sensory organelles that communicate mechanical and chemical stimuli from the environment to the interior of the cell. Cilium formation may, therefore, become a useful end point signaling exposure to genotoxins or aneugens. Here we have used the aneugen, zidovudine (AZT), an antiretroviral drug that induces DNA replication arrest and centrosomal amplification (>2 centrosomes per quiescent cell), to evaluate cilia formation in retinal epithelial (pigmented) cells. Since cilia are derived from centrosomes, and aneugens can induce centrosomal amplification, the production of multiple cilia arising from multiple centrosomes may reveal the aneugenic nature of the agents. Cells were exposed to AZT to induce centrosomal amplification, cultured without serum to allow the centrioles to develop cilia, and immunostained to visualize cilia and centrosomes. Nuclear DNA was stained with DAPI. Preliminary observations suggest that cells with multiple centrosomes are able to generate extra cilia., (Copyright © 2015 John Wiley & Sons, Inc.)

Published

2015

29. Recommended protocols for the liver micronucleus test: Report of the IWGT working group.

Author

Uno Y, Morita T, Luijten M, Beevers C, Hamada S, Itoh S, Ohyama W, and Takasawa H

Subjects

Animals, Blood Cells metabolism, Blood Cells pathology, Bone Marrow Cells metabolism, Bone Marrow Cells pathology, Dose-Response Relationship, Drug, Humans, Liver pathology, Micronucleus Tests methods, Micronucleus Tests standards, Rats, Sensitivity and Specificity, Aneugens analysis, Aneugens toxicity, Liver metabolism, Micronuclei, Chromosome-Defective chemically induced

Abstract

At the 6th International Workshop on Genotoxicity Testing (IWGT), the liver micronucleus test working group discussed practical aspects of the in vivo rodent liver micronucleus test (LMNT). The group members focused on the three methodologies currently used, i.e., a partial hepatectomy (PH) method, a juvenile/young rat (JR) method, and a repeated-dose (RD) method in adult rodents. Since the liver is the main organ that metabolizes chemicals, the LMNT is expected to detect clastogens, especially those that need metabolic activation in the liver, and aneugens. Based on current data the three methods seem to have a high sensitivity and specificity, but more data, especially on non-genotoxic but toxic substances, would be needed to fully evaluate the test performance. The three methods can be combined with the micronucleus test (MNT) using bone marrow (BM) and/or peripheral blood (PB). The ability of the PH method to detect both clastogens and aneugens has already been established, but the methodology is technically challenging. The JR method is relatively straightforward, but animal metabolism might not be fully comparable to adult animals, and data on aneugens are limited. These two methods also have the advantage of a short testing period. The RD method is also straightforward and can be integrated into repeated-dose (e.g. 2 or 4 weeks) toxicity studies, but again data on aneugens are limited. The working group concluded that the LMNT could be used as a second in vivo test when a relevant positive result in in vitro mammalian cell genotoxicity tests is noted (especially under the condition of metabolic activation), and a negative result is observed in the in vivo BM/PB-MNT. The group members discussed LMNT protocols and reached consensus about many aspects of test procedures. However, data gaps as mentioned above remain, and further data are needed to fully establish the LMNT protocol., (Copyright © 2014 Elsevier B.V. All rights reserved.)

Published

2015

30. Micronucleus test in rodent tissues other than liver or erythrocytes: Report of the IWGT working group.

Author

Uno Y, Morita T, Luijten M, Beevers C, Hamada S, Itoh S, Ohyama W, and Takasawa H

Subjects

Animals, Animals, Newborn, Erythrocytes metabolism, Erythrocytes pathology, Female, Fetus metabolism, Fetus pathology, Humans, Intestinal Mucosa metabolism, Intestinal Mucosa pathology, Liver metabolism, Liver pathology, Male, Mice, Micronucleus Tests methods, Micronucleus Tests standards, Mouth Mucosa metabolism, Mouth Mucosa pathology, Rats, Skin metabolism, Skin pathology, Spleen metabolism, Spleen pathology, Urinary Bladder metabolism, Urinary Bladder pathology, Vagina metabolism, Vagina pathology, Aneugens analysis, Aneugens toxicity, Colon metabolism, Colon pathology, Gastric Mucosa metabolism, Micronuclei, Chromosome-Defective chemically induced, Stomach pathology

Abstract

At the 6th International Workshop on Genotoxicity Testing, the liver micronucleus test (MNT) working group briefly discussed the MNT using tissues other than liver/erythrocytes. Many tissues other than liver/erythrocytes have been studied, primarily for research purposes. They have included the colon and intestinal epithelium, skin, spleen, lung, stomach, bladder, buccal mucosa, vagina, and fetal/neonatal tissues. These tissues were chosen because they were target sites of carcinogens, and/or relevant to a specific route of exposure. Recently, there has been particular focus on the gastrointestinal (GI) tract as it is a contact site associated with high exposure following oral gavage. Furthermore GI tumors are observed with high frequency in human populations. A collaborative study of the rat glandular stomach and colon MNT was conducted in conjunction with a collaborative study of the repeated-dose liver MNT. Based on limited data currently available, the rodent MNT using the glandular stomach and/or colon seems to detect genotoxic carcinogens with GI tract target-organ specificity. The working group concluded that the GI tract MNT would be a promising method to examine clastogenicity or aneugenicity of test chemicals in the stomach and/or colon. Further data will be needed to fully establish the methods, and to identify the sensitivity and specificity of the GI tract MNT., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published

2015

31. Detection of aneugenicity and clastogenicity in buccal epithelial cells of pan masala and gutkha users by pan-centromeric FISH analysis.

Author

Jyoti S, Naz F, Rahul, Khan S, Ali F, Fatima A, Khanam S, and Siddique YH

Subjects

Centromere, Epithelial Cells drug effects, Humans, In Situ Hybridization, Fluorescence, Male, Alcohol Drinking adverse effects, Aneugens toxicity, Micronuclei, Chromosome-Defective chemically induced, Mouth Mucosa drug effects, Mutagens toxicity, Plant Preparations toxicity, Smoking adverse effects

Abstract

Chewing of betel quid, smoking and alcohol consumption are all associated with higher incidences of oral cancer. Genetic damage can be detected by fluorescent in situ hybridization (FISH) using human centromeric probes. In the present study FISH was performed on buccal epithelial cells of pan masala and gutkha chewers alone with and without additional tobacco smoking and/or alcohol consumption. The study comprised of 1500 male individuals. The present study found the highest frequency of micronuclei without a centromeric region (MN(-)) among gutkha users who also smoked and drank (P < 0.05). A significant increase in cells having micronuclei with a centromeric region (MN(+)) was observed among pan masala users who also smoked (P < 0.05). The study reveals that the clastogenic effects of pan masala/gutkha increase with smoking and alcohol consumption, but aneugenic effects were also observed among the pan masala chewers who smoked., (© The Author 2014. Published by Oxford University Press on behalf of the UK Environmental Mutagen Society. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2015

32. [Polyploidy induction by spherical size standard polystyrene particles in a Chinese hamster cell line CHL].

Author

Matsuoka A, Önfelt A, Matsuda Y, Isama K, Sakoda H, Kato R, Sakai K, and Niimi S

Subjects

Aneugens metabolism, Animals, Cell Line, Chromosome Aberrations drug effects, Cricetinae, Cricetulus, Fibroblasts cytology, Fibroblasts metabolism, Mutagenicity Tests, Nanostructures, Polystyrenes metabolism, Aneugens toxicity, Fibroblasts drug effects, Particle Size, Polyploidy, Polystyrenes toxicity

Abstract

To investigate relationships between particle (as a model of aggregates) size in a nanomaterial test suspension and its cytotoxicity, a series of eleven sizes of polystyrene (PS) particles were tested in the cytotoxicity test and the chromosome aberration test by using a Chinese hamster cell line CHL. The PS particles were spheres with defined diameters ranging from 0.1 to 9.2 µm. A series of eight sizes of particles with diameters ranging from 0.92 to 4.45 µm showed stronger cytotoxicity than the others. There was a marked difference in cytotoxicity between the 4.45- and 5.26-µm particles. The 0.92- to 4.45-µm particles did not induce structural chromosome aberrations but induced a high frequency of polyploidy in the chromosome aberration test. The 5.26-µm particles showed very weak induction of polyploidy. The incorporation of the 4.45-µm particles into CHL cells was observed by scanning electron microscopy (SEM). Some cells incorporated more than 10 particles. The semi-quantitative measurement of incorporation of particles into cells was performed by flow cytometry with a parameter of side scattered light (SSC) intensity. It showed that CHL cells preferably incorporated the 4.45-µm particles to the 5.26-µm particles. These findings suggest that CHL cells may have a kind of size-recognition ability and incorporate a particular size of particles. The particles may prevent a normal cytokinesis resulting in polyploidy induction. Nanomaterials also may show size-dependent toxicity. Data on particle (or aggregate) size distribution in the test suspension should be provided to evaluate properly the results of toxicity tests of nanomaterials.

Published

2015

33. Interpreting in vitro micronucleus positive results: simple biomarker matrix discriminates clastogens, aneugens, and misleading positive agents.

Author

Bryce SM, Bemis JC, Mereness JA, Spellman RA, Moss J, Dickinson D, Schuler MJ, and Dertinger SD

Subjects

Azides chemistry, Caspase 3 metabolism, Chromatin chemistry, Flow Cytometry, Histones chemistry, Humans, Organic Chemicals chemistry, Ploidies, Poly(ADP-ribose) Polymerases metabolism, Regression Analysis, Reproducibility of Results, Aneugens toxicity, Biomarkers analysis, Micronucleus Tests methods, Mutagens toxicity

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 multiplexed onto flow cytometric acquisition of micronucleus frequencies, or that could be accomplished in parallel using a homogeneous-type assay. A training set of 30 chemicals comprised of clastogens, aneugens, and misleading positive chemicals was studied. These experiments were conducted with human TK6 cells over a range of closely spaced concentrations in a continuous exposure design. In addition to micronucleus frequency, the following endpoints were investigated, most often at time of harvest: cleaved Parp-positive chromatin, cleaved caspase 3-positive chromatin, ethidium monoazide bromide-positive chromatin, polyploid nuclei, phospho-histone H3-positive (metaphase) cells, tetramethylrhodamine ethyl ester-negative cells, cellular ATP levels, cell cycle perturbation, and shift in γ-H2AX fluorescence relative to solvent control. Logistic regression was used to identify endpoints that effectively predict chemicals' a priori classification. Cross validation using a leave-one-out approach indicated that a promising base model includes γ-H2AX shift and change in phospho-histone H3-positive events (25/30 correct calls). Improvements were realized when one or two additional endpoints were included (26-30/30 correct calls). These models were further evaluated with a test set of 10 chemicals, and also by evaluating 3 chemicals at a collaborating laboratory. The resulting data support the hypothesis that a matrix of high throughput-compatible biomarkers can effectively delineate two important modes of genotoxic action as well as identify cytotoxicity that can lead to irrelevant positive results., (© 2014 Wiley Periodicals, Inc.)

Published

2014

34. Assessment of the genotoxicity of trichloroethylene in the in vivo micronucleus assay by inhalation exposure.

Author

Wilmer JW, Spencer PJ, Ball N, and Bus JS

Subjects

Aneugens administration & dosage, Aneugens toxicity, Animals, Bone Marrow Cells drug effects, Bone Marrow Cells pathology, Erythrocytes drug effects, Erythrocytes pathology, Inhalation Exposure, Male, Micronucleus Tests methods, Mutagens administration & dosage, Rats, Trichloroethylene administration & dosage, Mutagens toxicity, Trichloroethylene toxicity

Abstract

The in vivo genotoxic potential of trichloroethylene (TCE) was evaluated by examining the incidence of micronucleated polychromatic erythrocytes (MN-PCEs) in the bone marrow. Groups of male CD rats were exposed by inhalation to targeted concentrations of 0 (negative control), 50, 500, 2500 or 5000 ppm for 6 consecutive hours on a single day. The exposure concentrations were selected to overlap those employed by a published study that reported a 2- to 3-fold increase in the frequency of micronuclei in male rats following a single inhalation exposure to 5, 500 and 5000 ppm TCE for 6h but not following repeated exposure to similar concentrations. In addition, any treatment-related findings were assessed in the context of potential TCE-induced hypothermia. Clinical signs consistent with marked TCE-induced sedation were observed in rats exposed to 5000 ppm and subsequently three rats died prior to the end of the 6h exposure period. No remarkable changes in body temperature were observed in surviving animals monitored with transponders before and after exposures. There were no statistically significant increases in the frequencies of MN-PCEs in groups treated with the test material as compared to the negative controls. The positive control animals showed a significant increase in the frequency of MN-PCEs and a decrease in the relative proportion of PCEs among erythrocytes as compared to the negative control animals. There were no statistically significant differences in the per cent PCEs in groups treated with the test material. As no increase in the incidence of micronuclei was observed in any of the TCE exposure groups, kinetochore analyses were not performed. Under the experimental conditions used, TCE was considered to be negative in the rat bone marrow micronucleus test.

Published

2014

35. FISH in micronucleus test demonstrates aneugenic action of rotenone in a common freshwater fish species, Nile tilapia (Oreochromis niloticus).

Author

Melo KM, Grisolia CK, Pieczarka JC, de Souza LR, Filho Jde S, and Nagamachi CY

Subjects

Aneuploidy, Animals, Brazil, DNA Fragmentation drug effects, Female, Fisheries, Fresh Water, Humans, In Situ Hybridization, Fluorescence, Male, Pesticides toxicity, Spindle Apparatus drug effects, Aneugens toxicity, Cichlids genetics, Micronucleus Tests methods, Rotenone toxicity

Abstract

Aneuploidies are numerical genetic alterations that lead to changes in the normal number of chromosomes due to abnormal segregation during cell division. This type of alteration can occur spontaneously or as a result of exposure to mutagenic agents. The presence of these agents in the environment has increased concern about potential damage to human health. Rotenone, derived from plants of the genera Derris and Lonchocarpus, is a product that is used all over the world as a pesticide and piscicide. Before establishing its potential and efficiency for these purposes, it is essential to know more about the possible adverse effects that it may cause. The current work aimed to evaluate the mutagenic potential of rotenone using fish from the species Oreochromis niloticus, as well as to help in understanding its action mechanism. Our results showed the mutagenic potential of rotenone evidenced by increased formation of micronuclei and nuclear buds at low doses of exposure. The use of fluorescence in situ hybridisation technique made it possible to measure the aneugenic potential of the substance, probably due to its impairment of mitotic spindle formation.

Published

2014

36. Genotoxic mixtures and dissimilar action: concepts for prediction and assessment.

Author

Ermler S, Scholze M, and Kortenkamp A

Subjects

Animals, CHO Cells drug effects, Cricetinae, Cricetulus, Dose-Response Relationship, Drug, Topoisomerase II Inhibitors toxicity, Aneugens toxicity, Complex Mixtures toxicity, Micronucleus Tests, Mutagens toxicity

Abstract

Combinations of genotoxic agents have frequently been assessed without clear assumptions regarding their expected (additive) mixture effects, often leading to claims of synergisms that might in fact be compatible with additivity. We have shown earlier that the combined effects of chemicals, which induce micronuclei (MN) in the cytokinesis-block micronucleus assay in Chinese hamster ovary-K1 cells by a similar mechanism, were additive according to the concept of concentration addition (CA). Here, we extended these studies and investigated for the first time whether valid additivity expectations can be formulated for MN-inducing chemicals that operate through a variety of mechanisms, including aneugens and clastogens (DNA cross-linkers, topoisomerase II inhibitors, minor groove binders). We expected that their effects should follow the additivity principles of independent action (IA). With two mixtures, one composed of various aneugens (colchicine, flubendazole, vinblastine sulphate, griseofulvin, paclitaxel), and another composed of aneugens and clastogens (flubendazole, doxorubicin, etoposide, melphalan and mitomycin C), we observed mixture effects that fell between the additivity predictions derived from CA and IA. We achieved better agreement between observation and prediction by grouping the chemicals into common assessment groups and using hybrid CA/IA prediction models. The combined effects of four dissimilarly acting compounds (flubendazole, paclitaxel, doxorubicin and melphalan) also fell within CA and IA. Two binary mixtures (flubendazole/paclitaxel and flubendazole/doxorubicin) showed effects in reasonable agreement with IA additivity. Our studies provide a systematic basis for the investigation of mixtures that affect endpoints of relevance to genotoxicity and show that their effects are largely additive.

Published

2014

37. Genotoxicity of heterocyclic PAHs in the micronucleus assay with the fish liver cell line RTL-W1.

Author

Brinkmann M, Blenkle H, Salowsky H, Bluhm K, Schiwy S, Tiehm A, and Hollert H

Subjects

Aneugens toxicity, Animals, Cell Line, Cytokinesis drug effects, Hepatocytes drug effects, Hepatocytes metabolism, Water Quality, Fishes metabolism, Hepatocytes pathology, Liver pathology, Micronucleus Tests methods, Mutagens toxicity, Polycyclic Aromatic Hydrocarbons toxicity

Abstract

Heterocyclic aromatic hydrocarbons are, together with their un-substituted analogues, widely distributed throughout all environmental compartments. While fate and effects of homocyclic PAHs are well-understood, there are still data gaps concerning the ecotoxicology of heterocyclic PAHs: Only few publications are available investigating these substances using in vitro bioassays. Here, we present a study focusing on the identification and quantification of clastogenic and aneugenic effects in the micronucleus assay with the fish liver cell line RTL-W1 that was originally derived from rainbow trout (Oncorhynchus mykiss). Real concentrations of the test items after incubation without cells were determined to assess chemical losses due to, e.g., sorption or volatilization, by means of gas chromatography-mass spectrometry. We were able to show genotoxic effects for six compounds that have not been reported in vertebrate systems before. Out of the tested substances, 2,3-dimethylbenzofuran, benzothiophene, quinoline and 6-methylquinoline did not cause substantial induction of micronuclei in the cell line. Acridine caused the highest absolute induction. Carbazole, acridine and dibenzothiophene were the most potent substances compared with 4-nitroquinoline oxide, a well characterized genotoxicant with high potency used as standard. Dibenzofuran was positive in our investigation and tested negative before in a mammalian system. Chemical losses during incubation ranged from 29.3% (acridine) to 91.7% (benzofuran) and may be a confounding factor in studies without chemical analyses, leading to an underestimation of the real potency. The relative potency of the investigated substances was high compared with their un-substituted PAH analogues, only the latter being typically monitored as priority or indicator pollutants. Hetero-PAHs are widely distributed in the environment and even more mobile, e.g. in ground water, than homocyclic PAHs due to the higher water solubility. We conclude that this substance class poses a high risk to water quality and should be included in international monitoring programs.

Published

2014

38. New DNA probes to detect aneugenicity in rat bone marrow micronucleated cells by a pan-centromeric FISH analysis.

Author

Takeiri A, Motoyama S, Matsuzaki K, Harada A, Taketo J, Katoh C, Tanaka K, and Mishima M

Subjects

Animals, Antibiotics, Antineoplastic toxicity, Base Sequence, Centromere genetics, Chromosomes genetics, Colchicine toxicity, DNA, Satellite analysis, DNA, Satellite genetics, Erythrocytes drug effects, Flow Cytometry, Male, Micronucleus Tests, Mitomycin toxicity, Molecular Sequence Data, Rats, Sequence Homology, Nucleic Acid, Tubulin Modulators toxicity, Vinblastine toxicity, Aneugens toxicity, Bone Marrow drug effects, Centromere drug effects, DNA Probes, In Situ Hybridization, Fluorescence, Micronuclei, Chromosome-Defective drug effects, Mutagens toxicity

Abstract

When characterizing the genotoxicity of chemicals that induce micronuclei, it is practical to be able to classify the chemicals as aneugens or clastogens. This classification gives information on the mechanistic properties of chemicals and is indispensable for setting the threshold safety margins for genotoxicity in pharmaceutical development. A widely used method for detecting aneugens is fluorescence in situ hybridization (FISH) but, even though the rat is an experimental animal generally used in preclinical studies in drug development, DNA probes that hybridize to all the centromeres of rat chromosomes have not yet been established. In the present study, in addition to the previously known satellite I sequence, we identified two novel satellite sequences, satellite II and satellite III, from the rat genome database. DNA probes with a mixture of these satellite DNA sequences were used to establish a FISH method for pan-centromeric staining of rat chromosomes. To confirm the feasibility of the method, vinblastine (VBS) and mitomycin C (MMC) were administered to rats as a typical aneugen and clastogen, respectively. Micronucleated polychromatic erythrocytes (MNPCE) from bone marrow were enriched by sorting in flow cytometry and subjected to the FISH method. As a result, the ratio of centromere-positive MNPCE increased in VBS-treated rats but not in MMC-treated ones. Since the FISH method using the novel DNA probes clearly discriminates the aneugens from the clastogens, we suggest this method as a useful tool for providing mechanistic information for micronucleus induction in vivo., (Copyright © 2013 Elsevier B.V. All rights reserved.)

Published

2013

39. Mitotic slippage underlies the relationship between p53 dysfunction and the induction of large micronuclei by colcemid.

Author

Hashimoto K and Todo T

Subjects

Apoptosis drug effects, Apoptosis genetics, Cell Line, Humans, Nondisjunction, Genetic drug effects, Tetraploidy, Aneugens toxicity, Demecolcine toxicity, Micronuclei, Chromosome-Defective chemically induced, Mitosis drug effects, Mitosis genetics, Tumor Suppressor Protein p53 metabolism

Abstract

Micronuclei induced by aneugens are larger than those induced by clastogens in both in vitro and in vivo micronucleus (MN) assays. p53 dysfunction increases the formation of large micronuclei following treatment with aneugens; this study sought to identify the mechanisms responsible for this. Treatment with colcemid, both a mitotic inhibitor and an aneugen, induced MN containing two or more chromosomes more frequently in NH32 cells, in which p53 function is compromised, than in TK6 cells, in which p53 is functional. This indicates that p53 dysfunction enhances aneugen-induced chromosome loss or perturbs apoptosis, resulting in the formation of large MN. To examine the former hypothesis, the incidence of chromosome malsegregation in colcemid-treated TK6 and NH32 cells was compared using the cytokinesis-block MN assay. The incidence of chromosome non-disjunction was higher in NH32 cells than in TK6 cells, whereas the incidence of MN containing two or more chromosomes was similar between the two cell lines. To address the involvement of apoptosis in cell cycle progression, examination of chromosome 8 distribution revealed that more mononuclear NH32 than TK6 cells were tetraploid after prolonged mitotic inhibition, which indicated that the more number of NH32 cells may have bypassed the spindle assembly checkpoint via mitotic slippage and progression into the next interphase. Cells that underwent mitotic slippage were likely to contain lagging chromosomes formed via chromosome malsegregation, resulting in MN separated from the main nucleus. The number of TK6 cells containing large MN following colcemid treatment was increased by treatment with a caspase inhibitor in a dose-dependent manner, indicating that TK6 cells with MN normally undergo apoptosis. In conclusion, these findings indicate that mitotic slippage and perturbed apoptosis contribute to the induction of large MN in p53-compromised cells following treatment with colcemid.

Published

2013

40. A C. elegans screening platform for the rapid assessment of chemical disruption of germline function.

Author

Allard P, Kleinstreuer NC, Knudsen TB, and Colaiácovo MP

Subjects

Aneugens toxicity, Animals, Caenorhabditis elegans genetics, Chromosome Segregation drug effects, High-Throughput Screening Assays, Meiosis drug effects, Caenorhabditis elegans drug effects, Environmental Pollutants toxicity, Germ Cells drug effects, Reproduction drug effects

Abstract

Background: Despite the developmental impact of chromosome segregation errors, we lack the tools to assess environmental effects on the integrity of the germline in animals., Objectives: We developed an assay in Caenorhabditis elegans that fluorescently marks aneuploid embryos after chemical exposure., Methods: We qualified the predictive value of the assay against chemotherapeutic agents as well as environmental compounds from the ToxCast Phase I library by comparing results from the C. elegans assay with the comprehensive mammalian in vivo end point data from the ToxRef database., Results: The assay was highly predictive of mammalian reproductive toxicities, with a 69% maximum balanced accuracy. We confirmed the effect of select compounds on germline integrity by monitoring germline apoptosis and meiotic progression., Conclusions: This C. elegans assay provides a comprehensive strategy for assessing environmental effects on germline function.

Published

2013

41. The automated micronucleus assay for early assessment of genotoxicity in drug discovery.

Author

Tilmant K, Gerets HH, De Ron P, Cossu-Leguille C, Vasseur P, Dhalluin S, and Atienzar FA

Subjects

Animals, Biotransformation, CHO Cells, Cell Count, Cricetinae, Cricetulus, Cytokinesis, Dose-Response Relationship, Drug, Drug Discovery, Flow Cytometry, Reproducibility of Results, Sensitivity and Specificity, Aneugens toxicity, Image Processing, Computer-Assisted, Micronucleus Tests methods

Abstract

Recent publications on the automated in vitro micronucleus assay show predictive values higher than 85% for the classification of in vitro aneugens, clastogens and non-genotoxic compounds. In the present work, the CHO-k1 micronucleus assay in combination with cellular imaging was further evaluated. Firstly, the effect of a range of S9 concentrations on micronucleus formation and cytotoxicity was investigated. Subsequently, the reproducibility and predictivity of the micronucleus assay on CHO-k1 cells was investigated with a set of four compounds. Then, a larger set of compounds (n=44) was tested on CHO-k1 cells and inter-laboratory correlation was calculated. Finally, cellular imaging was compared with flow cytometry for in vivo assessment of micronucleus formation. The concentration of S9 had a significant impact on micronucleus formation and cytotoxicity. In addition, calculations of relative cell count (RCC) and cytokinesis-block proliferation index (CBPI) showed to be complementary to cytotoxicity assessment. The CHO-k1 micronucleus assay correctly classified the four reference compounds, with a dose-response relationship and low variability. Based on a larger set of compounds, the assay proved to be reliable with a sensitivity of 94% (n=31) and a specificity of 85% (n=13). A correlation coefficient of 97% was obtained when the lowest observable adverse effect levels (LOAELs) from our study were compared with those published by Diaz et al. (2007) [10]. In conclusion, the in vitro CHO-k1 micronucleus assay combined with cellular imaging is a predictive assay appropriate for genotoxicity screening at early stages of drug development. In addition, for in vivo assessment of micronucleus formation, we preferred to use flow cytometry rather than cell imaging., (Copyright © 2012 Elsevier B.V. All rights reserved.)

Published

2013

42. Effects of spindle poisons in peripheral human lymphocytes by the in vitro cytokinesis-block micronucleus assay.

Author

Guccini S, Lombardi S, Pisani A, Piaggi S, and Scarpato R

Subjects

Anaphase drug effects, Blotting, Western, Bridged Bicyclo Compounds, Heterocyclic toxicity, Cell Nucleus drug effects, Cell Proliferation, Cytochalasin B toxicity, Demecolcine pharmacology, Humans, In Situ Hybridization, Fluorescence, Metaphase drug effects, Mitosis drug effects, Mutagens toxicity, Nocodazole pharmacology, Thiazolidines toxicity, Vincristine pharmacology, Aneugens toxicity, Cytokinesis drug effects, Lymphocytes drug effects, Micronucleus Tests methods

Abstract

The search for micronuclei (MN) in binucleated cells is not always the best choice to recognize microtubule-perturbing agents, as they give rise to (micronucleated) mononucleated cells, mainly via mitotic slippage. We therefore treated peripheral lymphocytes with vincristine (VCR), nocodazole (NOC) and colcemid (COL): (i) to quantify the formation of MN in mononucleated cells and the occurrence of abnormal mitoses (c-anaphases, endoreduplicated or tetraploid metaphases); (ii) to investigate the role of cytokinesis inhibition in determining or modulating the cytogenetic effects induced by the spindle poisons (we used either cytochalasin B (cyt B) or latrunculin A, a cytokinesis inhibitor that acts differently as compared with cyt B); (iii) to assess the ploidy of cells bearing MN by fluorescence in situ hybridisation (FISH) analysis; and (iv) to evaluate the levels of the mitotic arrest deficient (MAD2) protein, that blocks the cell at the metaphase-anaphase transition, by immunoblotting. We observed the induction of numerous abnormal mitoses and tetraploid interphase nuclei, as well as of MN in mononucleated cells, a high percentage of which had a diploid complement. We also found that the effects were generally not dose but chemical dependent, where NOC was proven to be more effective than COL and VCR in inducing overall MN formation and, specifically, diploid micronucleated lymphocytes. Aneugens damaged cells to a greater extent in the presence of cytokinesis inhibitors rather than in their absence. MAD2 protein was expressed in controls to an extent reflecting the amount of lymphocytes which were initially in the G2/M transition phase. The same trend was seen in aneugen-treated cells where MAD2 levels decreased with increasing spindle poison concentration. Here, we demonstrate that micronucleated mononucleated cells and aberrant mitoses can be considered useful markers of exposure to aneugens-like spindle poisons causing preferentially, but not exclusively, mitotic slippage. Assessment of MAD2 levels can be used to confirm the cell-damaging activity of the compounds.

Published

2012

43. Multiple genotoxic activities of ptaquiloside in human lymphocytes: aneugenesis, clastogenesis and induction of sister chromatid exchange.

Author

Gil da Costa RM, Coelho P, Sousa R, Bastos MMSM, Porto B, Teixeira JP, Malheiro I, and Lopes C

Subjects

Alkylating Agents toxicity, Aneugens toxicity, Comet Assay, DNA Damage drug effects, Dose-Response Relationship, Drug, Humans, Time Factors, Indans toxicity, Lymphocytes drug effects, Mutagens toxicity, Sesquiterpenes toxicity, Sister Chromatid Exchange drug effects

Abstract

Ptaquiloside, a norsesquiterpene glycoside from bracken (Pteridium aquilinum), is a known carcinogen towards animals. Its genotoxicity is mainly attributed to its DNA-alkylating and clastogenic properties. This study analyses various modes of genotoxic action of ptaquiloside in human mononuclear blood cells. The alkaline comet assay was performed on cells exposed to 5μg/ml ptaquiloside for 5, 10, 20, 30, 40 or 50min. Tail length was used as a DNA-damage parameter. Assays to determine structural and numerical chromosomal aberrations and sister-chromatid exchange were conducted on cells exposed to 5, 10 or 20μg/ml ptaquiloside for 48h. The tail length showed maximum DNA damage at 20-30min, diminishing onwards. Highly significant (p<0.001) dose-dependent increases in structural and numerical chromosomal aberrations and SCE were observed in response to ptaquiloside. These results indicate that ptaquiloside is not only a DNA-alkylating agent, but expresses its genotoxicity through multiple mechanisms including clastogenesis, aneugenesis and the mechanism underlying SCE induction, which is not entirely understood. Recent studies support the role played by aneuploidy in oncogenesis, highlighting the importance of this endpoint for mutagenicity screening. SCE are thought to represent the long-term effects of mutagens and are an important genotoxicity biomarker. The present results also agree with data from epidemiological studies and from animal in vivo studies, further supporting the hypothesis that ptaquiloside may represent a significant threat to human health., (Copyright © 2012 Elsevier B.V. All rights reserved.)

Published

2012

44. Structural and numerical chromosome aberration inducers in liver micronucleus test in rats with partial hepatectomy.

Author

Itoh S, Hattori C, Nagata M, and Sanbuissho A

Subjects

Animals, Benzimidazoles toxicity, Carbamates toxicity, Colchicine analogs & derivatives, Colchicine toxicity, DNA Damage, Diethylnitrosamine toxicity, Dimethylhydrazines toxicity, Dose-Response Relationship, Drug, Male, Rats, Rats, Inbred F344, Aneugens toxicity, Chromosome Aberrations, Hepatectomy, Liver, Micronucleus Tests methods, Mutagens toxicity

Abstract

The liver micronucleus test is an important method to detect pro-mutagens such as active metabolites not reaching bone marrow due to their short lifespan. We have already reported that dosing of the test compound after partial hepatectomy (PH) is essential to detect genotoxicity of numerical chromosome aberration inducers in mice [Mutat. Res. 632 (2007) 89-98]. In naive animals, the proportion of binucleated cells in rats is less than half of that in mice, which suggests a species difference in the response to chromosome aberration inducers. In the present study, we investigated the responses to structural and numerical chromosome aberration inducers in the rat liver micronucleus test. Two structural chromosome aberretion inducers (diethylnitrosamine and 1,2-dimethylhydrazine) and two numerical chromosome aberration inducers (colchicine and carbendazim) were used in the present study. PH was performed a day before or after the dosing of the test compound in 8-week old male F344 rats and hepatocytes were isolated 4 days after the PH. As a result, diethylnitrosamine and 1,2-dimethylhydrazine, structural chromosome aberration inducers, exhibited significant increase in the incidence of micronucleated hepatocyte (MNH) when given either before and after PH. Colchicine and carbendazim, numerical chromosome aberration inducers, did not result in any toxicologically significant increase in MNH frequency when given before PH, while they exhibited MNH induction when given after PH. It is confirmed that dosing after PH is essential in order to detect genotoxicity of numerical chromosome aberration inducers in rats as well as in mice. Regarding the species difference, a different temporal response to colchicine was identified. Colchicine increased the incidence of MNH 4 days after PH in rats, although such induction in mice was observed 8-10 days after PH., (Copyright © 2012 Elsevier B.V. All rights reserved.)

Published

2012

45. Development and validation of an in vitro micronucleus assay platform in TK6 cells.

Author

Sobol Z, Homiski ML, Dickinson DA, Spellman RA, Li D, Scott A, Cheung JR, Coffing SL, Munzner JB, Sanok KE, Gunther WC, Dobo KL, and Schuler M

Subjects

Aneugens toxicity, Biotransformation, Cell Line, Guidelines as Topic, Humans, Antineoplastic Agents toxicity, Micronucleus Tests methods, Mutagens toxicity

Abstract

The Organization for Economic Co-operation and Development (OECD) has recently adopted Test Guideline 487 (TG487) for conducting the in vitro micronucleus (MNvit) assay. The purpose of this study is to evaluate and validate treatment conditions for the use of p53 competent TK6 human lymphoblastoid cells in a TG487 compliant MNvit assay. The ten reference compounds suggested in TG487 (mitomycin C, cytosine arabinoside, cyclophosphamide, benzo-a-pyrene, vinblastine sulphate, colchicine, sodium chloride, nalidixic acid and di(2-ethylhexyl)phthalate and pyrene) and noscapine hydrochloride were chosen for this study. In order to optimize the micronucleus response after treatment with some positive substances, we extended the recovery time after pulse treatment from 2 cell cycles recommended in TG487 to 3 cell cycles for untreated cells (40h). Each compound was tested in at least one of four exposure conditions: a 4h exposure followed by a 40h recovery, a 4h exposure followed by a 24h recovery, a 4h exposure in the presence of an exogenous metabolic activation system followed by a 40h recovery period, and a 27h continuous direct treatment. Results show that the direct acting clastogens, clastogens requiring metabolic activation and aneugens caused a robust increase in micronuclei in at least one test condition whereas the negative compounds did not induce micronuclei. The negative control cultures exhibited reproducibly low and consistent micronucleus frequencies ranging from 0.4 to 1.8% (0.8±0.3% average and standard deviation). Furthermore, extending the recovery period from 24h to 40h produced a 2-fold higher micronucleus frequency after a 4h pulse treatment with mitomycin C. In summary, the protocol described in this study in TK6 cells produced the expected result with model compounds and should be suitable for performing the MNvit assay in accordance with guideline TG487., (Copyright © 2012 Elsevier B.V. All rights reserved.)

Published

2012

46. The ability of the mouse lymphoma TK assay to detect aneugens.

Author

Fellows MD, Doherty AT, Priestley CC, Howarth V, and O'Donovan MR

Subjects

Aneugens toxicity, Animals, Cell Line, Tumor, Centromere drug effects, Centromere metabolism, Chromosomes, Mammalian genetics, Gene Dosage drug effects, Gene Dosage genetics, In Situ Hybridization, Fluorescence, Karyotyping, Loss of Heterozygosity drug effects, Loss of Heterozygosity genetics, Mice, Microsatellite Repeats genetics, Polymerase Chain Reaction, Aneugens analysis, Enzyme Assays methods, Lymphoma metabolism, Thymidine Kinase metabolism

Abstract

There is some evidence that the mouse lymphoma TK assay (MLA) can detect aneugens, and this is accepted in the current International Conference on Harmonisation guidance for testing pharmaceuticals. However, whether or not it can be used as a reliable screen for aneugenicity has been the subject of debate. Consequently, aneugens with diverse mechanisms of action were tested in the MLA using 24-h exposure. No evidence of increased mutant frequency was seen with noscapine, diazepam or colchicine and increases were seen with taxol, carbendazim, econazole and chloral hydrate only at high levels of toxicity (for all but one taxol concentration survival reduced to ≤10% of control). None of these agents would be unequivocally classified as positive using currently accepted criteria. The largest increases in mutant number were seen with taxol and carbendazim; therefore, trifluorothymidine (TFT)-resistant clones resulting from treatment with them were cultured and analysed for chromosome 11 copy number using fluorescent in situ hybridisation (FISH) and loss of heterozygosity (LOH). High concentrations of these aneugens induced LOH at all loci examined indicating only one chromosome 11 was present but, perhaps surprisingly, all were found to have two copies of chromosome 11 using FISH. This would be consistent with loss of the tk(+) chromosome 11b with concomitant duplication of chromosome 11a, which has been proposed as a likely mechanism for induction of TFT-resistant clones. However, it was also surprising that analysis of centromere size showed that almost all the clones had both small and large centromeres, i.e. suggesting the presence of both chromosomes 11a and 11b. In conclusion, it appears that the TFT-resistant mutants resulting from treatment with toxic concentrations of some aneugens such as taxol and carbendazim have undergone complex genetic changes. However, these data show that the MLA cannot be used as a routine screen to detect aneugens.

Published

2011

47. Comparative aneugenicity of doxorubicin and its derivative idarubicin using fluorescence in situ hybridization techniques.

Author

Attia SM

Subjects

Aneugens toxicity, Aneuploidy, Animals, Bone Marrow, Bromodeoxyuridine metabolism, Drug Evaluation, Preclinical, Intercellular Signaling Peptides and Proteins, Male, Mice, Peptides metabolism, Antineoplastic Agents toxicity, Doxorubicin toxicity, Idarubicin toxicity, In Situ Hybridization, Fluorescence methods, Micronucleus Tests

Abstract

The present study was designed to evaluate and compare the aneugenicity of idarubicin and doxorubicin, topoisomerase-targeting anticancer anthracyclines, using fluorescence in situ hybridization techniques. It was found that idarubicin and doxorubicin treatment (12 mg/kg) induced sperm meiotic delay of 24h. To determine the frequencies of disomic and diploid sperm, groups of 5 male Swiss albino mice were treated with 3, 6 and 12 mg/kg idarubicin or doxorubicin. Significant increases in the frequencies of disomic and diploid sperm were caused by treatment with all doses of idarubicin and the two highest doses of doxorubicin compared with the controls. Moreover, both compounds significantly increased the frequency of diploid sperm, indicating that complete meiotic arrest occurred. The observation that XX- and YY-sperm significantly prevailed XY-sperm indicates missegregation during the second meiotic division. The results suggest also that earlier prophase stages contribute relatively less to idarubicin and doxorubicin-induced aneuploidy. Effects of the same doses were investigated by the bone-marrow micronucleus test. Significant increases in the frequencies of micronuclei were found after treatment with all doses of both compounds. The responses were also directly correlated with bone marrow suppression. Idarubicin was more toxic than doxorubicin. Exposure to 12 mg/kg of idarubicin and doxorubicin yielded 3.82 and 2.64% micronuclei, respectively, and of these an average of 58.3 and 62.8%, respectively, showed centromeric signals, indicating their formation by whole chromosomes and reflecting the aneugenic activity of both compounds. Correspondingly, about 41.7 and 37.2% of the induced micronuclei, respectively, were centromere-negative, demonstrating that both compounds not only induce chromosome loss but also DNA strand breaks. Based on our data, aneuploidy assays such as sperm-fluorescence in situ hybridization assay and micronucleus test complemented by fluorescence in situ hybridization with centromeric DNA probes have been to some extent validated to be recommended for the assessment of aneuploidogenic effects of chemicals., (2011 Elsevier B.V. All rights reserved.)

Published

2011

48. Detection of environmental clastogens and aneugens in human fibroblasts by cytokinesis-blocked micronucleus assay associated with immunofluorescent staining of CENP-A in micronuclei.

Author

Benameur L, Orsière T, Rose J, and Botta A

Subjects

Aneugens metabolism, Aneugens toxicity, CREST Syndrome blood, Centromere Protein A, Cytokinesis, Environmental Monitoring, Fibroblasts drug effects, Humans, In Situ Hybridization, Fluorescence, Mutagens toxicity, Trans-Activators metabolism, Autoantigens metabolism, Chromosomal Proteins, Non-Histone metabolism, Environmental Pollutants metabolism, Fibroblasts metabolism, Micronucleus Tests methods, Mutagens metabolism

Abstract

The cytokinesis-blocked micronucleus (CBMN) assay, in combination with fluorescent in situ hybridization (FISH) of human pan-centromeric DNA probes, or with CREST antibodies that specifically stain kinetochore proteins, is widely used on several cell types. It distinguishes micronuclei containing one or several whole chromosomes, which are positively labeled (centromere positive micronucleus, C+MN, due to aneugenic effect), or acentric chromosome fragments, which are unlabeled due to the absence of centromere (centromere negative micronucleus, C-MN, due to clastogenic effect). However, the very slight level of the centromeric signals obtained with the FISH technique on primary human fibroblasts, a cell type commonly used in environmental genetic toxicology, leads to great difficulties in distinguishing C+MN and C-MN. Furthermore, the CREST technique may lead to inappropriate results particularly with regards to variations in antibody composition between patient sera. Our results show that the in vitro CBMN, in combination with immunofluorescence staining of CENP-A (centromere protein A), efficiently screens genotoxicants for their ability to induce clastogenic and/or aneugenic effects. We propose the in vitro CBMN assay in combination with immunofluorescence staining of CENP-A as a suitable tool in environmental genotoxicity testing of primary human fibroblasts., (Copyright © 2011 Elsevier Ltd. All rights reserved.)

Published

2011

49. In vitro aneugenic effects of the fungicide thiabendazole evaluated in human lymphocytes by the micronucleus assay.

Author

Santovito A, Cervella P, and Delpero M

Subjects

Adult, Algorithms, Anthelmintics toxicity, Cell Proliferation drug effects, Cells, Cultured, Cytokinesis drug effects, Environmental Pollutants, Food Preservatives toxicity, Humans, Male, Micronucleus Tests, Mitotic Index, Mutagens toxicity, Osmolar Concentration, Aneugens toxicity, Fungicides, Industrial toxicity, Lymphocytes drug effects, Thiabendazole toxicity

Abstract

Thiabendazole is a benzimidazole-derived compound widely employed in agriculture as anthelmintic and fungicide. It is also used as a post-harvest fungicide for imported citrus fruits during transport and storage, and thus, it was found at high concentration in fruits and vegetables. Several studies have analyzed the potential genotoxic effect of thiabendazole on different prokaryotic and eukaryotic systems, but in many cases, results were contradictory. In the present study, the genotoxic potential of thiabendazole have been evaluated, by micronucleus assay in freshly isolated human peripheral lymphocytes. The cells were incubated with 0.5, 5 and 50 μg/ml concentrations of the tested substance for 48 h at 37°C. Mitomycin C at final concentration of 0.01 μg/ml culture was used as a positive control. The results indicated that the thiabendazole significantly (P < 0.05) increased the micronucleus frequency compared with the negative control in all treatment concentrations, indicating a potential aneugenic hazard of thiabendazole in cultured human peripheral lymphocytes. The cytokinesis-block proliferation index value, however, was not decreased significantly compared with the negative control. Significant (P < 0.05) differences in the micronuclei frequency were also found between the lower dose (0.5 μg/ml) and the other two analyzed doses of thiabendazole. In contrast, no differences were found between 5 and 50 μg/ml of thiabendazole and between DMSO and negative control. Finally, control cultures treated with the known mutagen MMC showed a very consistent increase in MN with respect to the negative controls.

Published

2011

50. Miniaturized flow cytometry-based CHO-K1 micronucleus assay discriminates aneugenic and clastogenic modes of action.

Author

Bryce SM, Avlasevich SL, Bemis JC, and Dertinger SD

Subjects

Animals, CHO Cells, Cricetinae, Cricetulus, Miniaturization, Aneugens toxicity, Flow Cytometry methods, Micronucleus Tests, Mutagens toxicity

Abstract

A well recognized advantage of the in vitro micronucleus assay is its ability to detect both aneugens and clastogens. This laboratory has previously described a flow cytometric approach for scoring in vitro micronuclei (MN)(Avlasevich et al. [2006]: Environ Mol Mutagen 47: 56–66). More recently, based on work with Chinese hamster cells, evidence has accumulated that the multiparametric data acquired by the flow cytometric process is capable of discriminating between aneugenic and clastogenic modes of action (MOA). That is, in the case of CHO-K1 cells, clastogens are observed to induce MN with minimal effects on the incidence of hypodiploid nuclei or the median size of MN (i.e., fluorescence intensity), whereas aneugens are observed to affect all three parameters. To systematically test whether these ‘‘signatures’’ are indeed reliable indicators of genotoxic MOA, CHO-K1 cells were treated with eight prototypical clastogens, eight an eugens, and 15 nongenotoxicants. Exposure was continuous (18–24 hrs) with harvest occurring immediately thereafter. Treatment and all subsequent processing and analysis steps occurred in the same 96-well plate, making this an efficient, miniaturized assay. The resulting flow cytometric MN data correlated well with expected in vitro cytogenetics: sensitivity 5 16/16, specificity 5 14/15. In addition, MOA signatures were identified that classified each of the 16 genotoxicants correctly as clastogenic or aneugenic. Taken together, these data indicate that flow cytometry represents an analytical platform that is capable of rapidly and objectively acquiring MN counts while simultaneously providing information on genotoxic MOA., (Published 2010 Wiley-Liss, Inc.)

Published

2011