Identification of transcriptome profiles for the DNA‐damaging agents bleomycin and hydrogen peroxide in L5178Y mouse lymphoma cells

Seidel, Shawn D.; Kan, Hayato; Stott, William T.; Schisler, Melissa R.; Gollapudi, B. Bhaskar

doi:10.1002/em.10169

Cited by 24 publications

(8 citation statements)

References 33 publications

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“…In contrast to another study published from the ILSI genotoxicity working group [Seidel et al, 2003], our group did see changes in DNA repair and cell cycle control genes with mouse lymphoma cells. This other study on the treatment of L5178Y mouse lymphoma cells with bleomycin used a different platform (the Clontech Atlas array) with a different gene content and demonstrated effects only for genes associated with apoptosis.…”

Section: Discussioncontrasting

confidence: 84%

“…Our studies did confirm that bleomycin induced many apoptosis-related genes in human cells (Table X). However, we did not observe the identical genes that were Seidel et al [2003] study. This highlights a potential for variability in results when using different platforms for measuring gene expression changes.…”

Section: Discussioncontrasting

confidence: 68%

“…In the follow-up study, upregulated genes were noted from treatment with bleomycin, although the magnitude of change remained low (data not shown). The lack of reproducibility of data between experiments for a specific treatment using DNA microarrays has been observed by other investigators [Seidel et al, 2003]. These studies imply that there may be variability in DNA microarray data for genes that undergo minimal change, and a method of confirmation of gene expression change is desirable.…”

Section: Gene Expression Changes In Bleomycin-treated L5178y Cellsmentioning

confidence: 87%

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Comparison of gene expression changes induced in mouse and human cells treated with direct‐acting mutagens

Islaih

Kadura

et al. 2004

Environ and Mol Mutagen

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Exposure to DNA-damaging agents can elicit a variety of stress-related responses that may alter the gene expression of numerous biological pathways. We used Affymetrix microarrays to detect gene expression changes in mouse lymphoma (L5178Y) and human lymphoblastoid (TK6) cells in response to methyl methanesulfonate (MMS; a prototypical alkylating agent) and bleomycin (a prototypical oxidative mutagen). Cells were treated for 4 hr, and RNA was isolated either at the end of the treatment or after a 20-hr recovery period. Two concentrations of each agent were used based on cytotoxicity levels and Tk mutant frequencies. Our microarray data analysis indicated that MMS and bleomycin gene expression responses were considerably different in mouse cells versus human cells. The results also suggested that more comprehensive cellular responses to MMS and bleomycin occurred in TK6 cells than in L5178Y cells. In contrast to L5178Y cells, the response of TK6 cells to MMS and bleomycin was characterized by the induction of p53-dependent genes that are involved in DNA repair, cell cycle regulation, and apoptosis. It appears that the induction of DNA damage by MMS in human TK6 cells mediated cytotoxicity and led to decreased cell survival. This may explain the greater sensitivity of TK6 cells to cytotoxic effects of MMS compared to L5178Y cells. Bleomycin exerted comparable cytotoxic effects in the two cell lines. Overall, these studies were unable to identify distinctive gene expression changes that differentiated bleomycin from MMS in either TK6 cells or mouse lymphoma cells.

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Section: Discussioncontrasting

confidence: 84%

Section: Discussioncontrasting

confidence: 68%

Section: Gene Expression Changes In Bleomycin-treated L5178y Cellsmentioning

confidence: 87%

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Comparison of gene expression changes induced in mouse and human cells treated with direct‐acting mutagens

Islaih

Kadura

et al. 2004

Environ and Mol Mutagen

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“…Therefore, the pathway analysis is crucial for evaluating genotoxic mechanism. This has also become apparent in studies performed by participating laboratories in HESI Genomic consortium (Akerman et al 2004;Dickinson et al 2004;Hu et al 2004;Islaih et al 2004;Seidel et al 2003Seidel et al , 2004 and others (reviewed in Aubrecht and Caba 2005). Although the HESI Genomic consortium studies were performed under similar conditions in p53 deficient L5189Y and p53 proficient TK-6 cell lines, considerable differences were evident at the individual gene level.…”

Section: Advantages and Challenges Of Transcriptomics-based Approachementioning

confidence: 86%

Genomic Approaches for Investigating Mechanisms of Genotoxicity

Caba¹,

Aubrecht²

2006

Toxicology Mechanisms and Methods

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The current genetic toxicity testing battery enables an accurate and effective detection of genotoxicity associated with exposure to chemicals. However, the interpretation of the data in light of the relevant risk to humans is often difficult due to limited insight into underlying genotoxic mechanisms. Thus, the development of experimental approaches capable of differentiating genotoxic mechanisms is expected to facilitate risk assessment. Recent progress in science and technology has enabled the investigation of the stress response associated with chemical exposure at the genomic level. For instance, gene expression profile analysis, transcriptomics, was proposed as a tool for evaluating toxic mechanisms. In addition, the advancement in genetic tools has allowed the study of stress response on a functional level, functional genomics. This review will outline a number of recent developments in genomic analyses of genotoxic stress response and provide a perspective on their application in genetic toxicology.

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“…Aardema and colleagues are analyzing additional data to help validate the utility of this approach. In addition, Gollapudi and colleagues reported certain gene expression changes that could serve as biomarkers of exposure to free radical-generating agents on the (Seidel et al 2003). Some preliminary results indicate that even within a category, namely, indirect-acting genotoxicants (hydroxyurea and taxol), differences exist in the gene expression patterns generated by these two compounds.…”

Section: Discussionmentioning

confidence: 99%