DNA repair gene deficiency does not predispose human bronchial epithelial cells to benzo(a)pyrene-induced cell transformation.

2012 
Abstract The development of cost and time-efficient in vitro assays to predict carcinogenicity of chemicals has become a very important direction for toxicological research. In this study, we generated a series of human bronchial epithelial (HBE) cells defect in DNA repair gene excision repair cross-completion 1 (ERCC1), excision repair cross-completion 2 (ERCC2), ataxia-telangiectasia mutated (ATM) and mutS homolog 2 (MSH2), respectively. The inhibition of gene expression was verified by detection of mRNA and protein levels of respective genes. The suppression of these DNA repair genes has no impact on cell proliferation or cell transformation. Although we found that the transgenic HBE cells were more sensitive in benzo(a)pyrene (BaP)-induced DNA damages measured by cytokinesis-block micronucleus (CBMN) assay and comet assay, we failed to observe enhanced effects on induction of cell transformation. HBE cells defect in DNA repair pathways did not exhibit malignantly transformed phenotype up to 20 weeks of BaP treatment, indicating that the deficiency of ERCC1 , ERCC2 , ATM , or MSH2 alone did not shorten the latency of cell transformation. In contrast, we found that HBE cells expressing H-Ras or c-Myc were transformed 8 or 12 weeks after BaP treatment. These findings demonstrate that silencing of a single DNA repair gene does not confer cells susceptible to chemical-induced cell transformation.
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