Assessment of the performance of the TGx‐DDI biomarker to detect DNA damage‐inducing agents using quantitative RT‐PCR in TK6 cells

Cho, Eunnara; Buick, Julie K.; Williams, Andrew; Chen, Renxiang; Li, Heng‐Hong; Corton, J. Christopher; Fornace, Albert J.; Aubrecht, Jiri; Yauk, Carole L.

doi:10.1002/em.22257

Cited by 31 publications

(32 citation statements)

References 26 publications

(52 reference statements)

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“…Another major challenge since the beginning of toxicogenomics is linking changes in gene expression to specific molecular events and toxicological outcomes. Our work here in the case of NRF2 and by extrapolation increases in oxidative stress, and in other publications examining endpoints important in endocrine disruption [22,23] and DNA damage [24,57], directly addresses this issue. Moving forward, biomarkers for activation of transcription factors can, to some extent, be developed using existing microarray data.…”

Section: Plos Onementioning

confidence: 91%

Mining a human transcriptome database for chemical modulators of NRF2

et al. 2020

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Nuclear factor erythroid-2 related factor 2 (NRF2) encoded by the NFE2L2 gene is a transcription factor critical for protecting cells from chemically-induced oxidative stress. We developed computational procedures to identify chemical modulators of NRF2 in a large database of human microarray data. A gene expression biomarker was built from statistically-filtered gene lists derived from microarray experiments in primary human hepatocytes and cancer cell lines exposed to NRF2-activating chemicals (oltipraz, sulforaphane, CDDO-Im) or in which the NRF2 suppressor Keap1 was knocked down by siRNA. Directionally consistent biomarker genes were further filtered for those dependent on NRF2 using a microarray dataset from cells after NFE2L2 siRNA knockdown. The resulting 143-gene biomarker was evaluated as a predictive tool using the correlation-based Running Fisher algorithm. Using 59 gene expression comparisons from chemically-treated cells with known NRF2 activating potential, the biomarker gave a balanced accuracy of 93%. The biomarker was comprised of many well-known NRF2 target genes (AKR1B10, AKR1C1, NQO1, TXNRD1, SRXN1, GCLC, GCLM), 69% of which were found to be bound directly by NRF2 using ChIP-Seq. NRF2 activity was assessed across~9840 microarray comparisons from~1460 studies examining the effects of~2260 chemicals in human cell lines. A total of 260 and 43 chemicals were found to activate or suppress NRF2, respectively, most of which have not been previously reported to modulate NRF2 activity. Using a NRF2-responsive reporter gene in HepG2 cells, we confirmed the activity of a set of chemicals predicted using the biomarker. The biomarker will be useful for future gene expression screening studies of environmentally-relevant chemicals.

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Section: Plos Onementioning

confidence: 91%

Mining a human transcriptome database for chemical modulators of NRF2

et al. 2020

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“…Lastly, answers to the aforementioned questions will very likely facilitate determination of those circumstances (e.g., specific classes of compounds and/or specific chemical properties) where new targets of genomic damage might be identified and eventually be used to provide additional mechanistic evidence for assessment of genotoxic and/or carcinogenic hazard [ [42] , [43] , [44] ]. In-depth analysis of the database is on-going; the results of these analyses will be presented in a forthcoming manuscript.…”

Section: Discussionmentioning

confidence: 99%

EURL ECVAM Genotoxicity and Carcinogenicity Database of Substances Eliciting Negative Results in the Ames Test: Construction of the Database

Madia

Kirkland²,

Morita

et al. 2020

Mutation Research/Genetic Toxicology and Environmental Mutagene

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Highlights EURL ECVAM Consolidated Genotoxicity and Carcinogenicity Database extended. Negative Ames test results were compiled and reviewed. A database of Ames negative results was constructed. Database chemical space characterization was conducted. OFG representation of carcinogens and non-carcinogens was characterised.

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“…Employing either the ToxTracker, TGx‐DDI or the whole genome approach (selected dose only) in combination with the MN assay all have benefits as well as drawbacks in terms of cost—either associated with having compounds analyzed as a service (ToxTracker) or requiring expensive specialty instrumentation for generating genomic data. The TGx‐DDI biomarker is becoming more accessible as it has now been successfully extended to multiple more cost effective/accessible approaches such as qRT‐PCR and NanoString nCounter technology (Cho et al, 2019; Li et al, 2017), however some methods still require computational biology expertise. Further analysis of the resulting genomic data can present a challenge depending on the route taken; for example a web‐based platform has been built for TGx‐DDI analysis (https://manticore.niehs.nih.gov/tgxddi) and this platform does thus not require the user to be proficient in computation biology expertise.…”

Section: Discussionmentioning

confidence: 99%

“…A three‐pronged method is used in which a positive call is based on the agent being classified as positive for DDI in any one of three analytical interpretations of the data: (a) a probability analysis based on the nearest shrunken centroid, (b) a principal components analysis, and (c) 2‐dimensional clustering (Li et al, 2017). The two aneugenic compounds examined (VB and COL) were included in the analysis, although the TGx‐DDI biomarker is reported to not detect this mode of action (Cho et al, 2019).…”

Section: Methodsmentioning

confidence: 99%

A comparison of classical and 21st century genotoxicity tools: A proof of concept study of 18 chemicals comparing in vitro micronucleus, ToxTracker and genomics‐based methods (TGx‐DDI, whole genome clustering and connectivity mapping)

Allemang

Abrew

Shan

et al. 2020

Environ and Mol Mutagen

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A key step in the risk assessment process of a substance is the assessment of its genotoxic potential. Irrespective of the industry involved, current approaches rely on combinations of two or three in vitro tests and while highly sensitive, their specificity is thought to be limited. A refined in vitro genotoxicity testing strategy with improved predictive capacity would be beneficial and “3R” friendly as it helps to avoid unnecessary in vivo follow‐up testing. Here, we describe a proof of concept study evaluating a balanced set of compounds that have in vivo negative or positive outcomes, but variable in vitro data, to determine if we could differentiate between direct and indirect acting genotoxicants. Compounds were examined in TK6 cells using an approach in which the same sample was used to evaluate both early genomic markers (Affymetrix analysis 4 hr post treatment), and the genotoxic outcome (micronuclei [MN] after 24 hr). The resulting genomic data was then analyzed using the TGx‐DDI biomarker, Connectivity mapping and whole genome clustering. Chemicals were also tested in the ToxTracker assay, which uses six different biomarker genes. None of the methods correctly differentiated all direct from indirect acting genotoxicants when used alone, however, the ToxTracker assay, TGx‐DDI biomarker and whole genome approaches provided high predictive capacity when used in combination with the MN assay (1/18, 2/18, 1/18 missed calls). Ultimately, a “fit for purpose” combination will depend on the specific tools available to the end user, as well as considerations of the unique benefits of the individual assays.

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Assessment of the performance of the TGx‐DDI biomarker to detect DNA damage‐inducing agents using quantitative RT‐PCR in TK6 cells

Cited by 31 publications

References 26 publications

Mining a human transcriptome database for chemical modulators of NRF2

Mining a human transcriptome database for chemical modulators of NRF2

EURL ECVAM Genotoxicity and Carcinogenicity Database of Substances Eliciting Negative Results in the Ames Test: Construction of the Database

A comparison of classical and 21st century genotoxicity tools: A proof of concept study of 18 chemicals comparing in vitro micronucleus, ToxTracker and genomics‐based methods (TGx‐DDI, whole genome clustering and connectivity mapping)

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