Human DNA topoisomerase IIbeta binds and cleaves four-way junction DNA in vitro

We have used gel retardation analysis to show that human DNA topoisomerase IIbeta can bind a 40 bp linear duplex containing a single DNA topoisomerase IIbeta cleavage site. Furthermore, we demonstrate for the first time that human DNA topoisomerase IIbeta binds to four-way junction DNA. This supports previous suggestions that topoisomerase II may be targeted to supercoiled DNA through the recognition of DNA cruciforms, helix-helix crossovers and hairpins. DNA topoisomerase IIbeta had a 4-fold higher affinity for the four-way junction than for the linear duplex, as demonstrated by protein titration and competition analysis. Furthermore, the DNA topoisomerase IIbeta:four-way junction complex was significantly more salt stable than the complex with linear DNA. The four-way junction contained potential topoisomerase IIbeta cleavage sites straddling the points of strand exchange, and indeed, topoisomerase IIbeta was able to cleave three of these four predicted sites. This indicates that topoiso-merase IIbeta can bind to the centre of the junction. Topoisomerase II has to bind both the transported and the gated DNA helices prior to strand passage, and it is possible that both helices are provided by the four-way junction in this case. The stable complex of DNA topoisomerase IIbeta with four-way junction DNA may provide an ideal substrate for further studies into the mechanism of substrate recognition and binding by DNA topoisomerase II.