Ciprofloxacin and etoposide (VP16) produce a similar pattern of DNA cleavage in a plasmid of an archaebacterium

Abstract

The fluoroquinolone ciprofloxacin, an inhibitor of eubacterial DNA gyrase, induces single- and double-stranded DNA breaks in the plasmid pGRB-1 from the halophilic archaebacterium Halobacterium GRB when the cells are treated by this drug in a magnesium-depleted medium. This reaction is prevented by a dose of novobiocin known to specifically inhibit DNA gyrase. Cleavage of pGRB-1 DNA induced by either ciprofloxacin or the antitumoral drug etoposide (VP16) produces DNA fragments of identical lengths. These results indicate that ciprofloxacin, novobiocin, and etoposide have a common target in Halobacterium GRB: an archaebacterial type II DNA topoisomerase. The similarity of DNA cleavage patterns induced by ciprofloxacin and etoposide is a new and strong argument that quinolone and epipodophyllotoxins have the same mode of interaction with the DNA-DNA topoisomerase II complexes. The plasmid pGRB-1 could be used to prescreen in the same system both antibiotics that inhibit bacterial gyrase and antitumoral drugs that inhibit eukaryotic DNA topoisomerase II.