DNA topoisomerases are important targets in anticancer and antibacterial therapy because drugs can initiate cell death by stabilizing the transient covalent topoisomerase-DNA complex. In this study, we employed a method that uses CsCl density gradient centrifugation to separate unbound from DNA-bound GyrA/ParC in Escherichia coli cell lysates after quinolone treatment, allowing antibody detection and quantitation of the covalent complexes on slot blots. Using these procedures modified from the in vivo complexes of enzyme (ICE) bioassay, we found a correlation between gyrase-DNA complex formation and DNA replication inhibition at bacteriostatic (1 × MIC) norfloxacin concentrations. Quantitation of the number of gyrase-DNA complexes per E. coli cell permitted an association between cell death and chromosomal gyrase-DNA complex accumulation at norfloxacin concentrations greater than 1 × MIC. When comparing levels of gyrase-DNA complexes to topoisomerase IV-DNA complexes in the absence of drug, we observed that the gyrase-DNA complex level was higher (∼ 150-fold) than that of the topoisomerase IV-DNA complex. In addition, levels of gyrase and topoisomerase IV complexes reached a significant increase after 30 min of treatment at 1 × and 1.7 × MIC, respectively. These results are in agreement with gyrase being the primary target for quinolones in E. coli. We further validated the utility of this method for the study of topoisomerase-drug interactions in bacteria by showing the gyrase covalent complex reversibility after removal of the drug from the medium, and the resistant effect of the Ser83Leu gyrA mutation on accumulation of gyrase covalent complexes on chromosomal DNA. Copyright © 2012, American Society for Microbiology. All Rights Reserved.
CITATION STYLE
Aedo, S., & Tse-Dinh, Y. C. (2012). Isolation and quantitation of topoisomerase complexes accumulated on Escherichia coli chromosomal DNA. Antimicrobial Agents and Chemotherapy, 56(11), 5458–5464. https://doi.org/10.1128/AAC.01182-12
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