Overexpression of a DNA Methyltransferase Increases Persister Cell Formation in Acinetobacter baumannii

Many mechanisms have been proposed to be involved in the formation of bacterial persister cells. In this study, we investigated the impact of dam encoding DNA methylation on persister cell formation in Acinetobacter. We constructed plasmids overexpressing dam encoding DNA-(adenine N6)-methyltransferase and four genes as possibly involved in persistence and introduced them into three A. baumannii strains. For persister cell formation assays, bacteria were exposed to ciprofloxacin, imipenem, cefotaxime, and rifampin, and the transcription levels of the genes were measured by qRT-PCR. In addition, growth curves of strains were determined. We found that all five genes were upregulated following antibiotic exposure. Dam overexpression increased persister cell formation rates and activated the four persister cell-involved genes. Among the four persister cell-involved genes, only RecC overexpression increase persister cell formation rates. While recC-overexpressing strains showed higher growth rates, dam-overexpressing strains showed decreased growth rates. In this study, we revealed that a DNA methyltransferase may regulate persister cell formation in A. baumannii, while RecC seems to mediate epigenetic regulation of persister cell formation. However, Dam and RecC may act at different persister cell formation states. IMPORTANCE Bacterial persister cells are not killed by high concentration of antibiotics, despite its antibiotic susceptibility. It has been known that they may cause antibiotic treatment failure and contribute to the evolution of antibiotic resistance. Although many mechanisms have been suggested and verified for persister cell formation, many remains to be uncovered. In this study, we report that DNA methyltransferase leads to an increase in persister cell formation, through transcriptional activation of several regulatory genes. Our results suggest that DNA methyltransferases could be target proteins to prevent formation of persister cells.