ATM and ATR gene editing mediated by CRISPR/Cas9 in Chinese Hamster cells.

ABSTRACT

Chinese hamster-derived cell lines including Chinese hamster lung fibroblasts (V79) have been used as model somatic cell lines in radiation biology and toxicology research for decades and have been instrumental in advancing our understanding of DNA damage response (DDR) mechanisms. Whereas many mutant lines deficient in DDR genes have been generated more than over decades, several key DDR genes such as ATM and ATR have not been established in the Chinese hamster system. Here, we transfected CRISPR/Cas9 vectors targeting Chinese hamster ATM or ATR into V79 cells and investigated whether the isolated clones had the characteristics reported in human and mouse studies. We obtained two clones of ATM knockout cells containing an insertion or deletions in the targeted locus. The ATM knockouts with no detectable ATM protein expression exhibited increased sensitivity to radiation and DNA double strand break inducing agents, cell cycle checkpoint defects and defective chromatid break repair. These are all characteristics of defective ATM function. Among the obtained ATR cells, which contained mutations in both ATR alleles while maintaining normal levels of ATR protein expression, one clone exhibited hypersensitivity to UV and replication stress agents. In the present study, we successfully established CRISPR-Cas9 derived ATM knockout cells. We couldn't knock out the ATR gene but obtained ATR mutant cells. Our results showed that Chinese hamster origin ATM knockout cells and ATR mutant cells could be useful tools for further research to reveal oncogenic functions and effects of developing anti-cancer therapeutics.