Human 170 kDa and 180 kDa Topoisomerases II Bind Preferentially to Curved and Left-Handed Linear DNA

Abstract

The binding activities of the 170 kDa and the 180 kDa human topoisomerases II (topo IIa and topo IIβ) to linear DNA fragments with different degrees of curvature were characterized. In gel retardation experiments it was shown that both forms of the enzyme bind preferentially to a curved 287 bp fragment, forming a detectable stable complex. The affinity for straight DNA fragments of similar length is significantly lower. Both a commercially available topo IIa, isolated from placenta, and topo IIα and topo IIβ purified from nuclear extracts of the Namahva lymphoma tissue culture line gave similar results. The effects of double-stranded poly[d(A-T)], poly[d(G-C)], supercoiled plasmid DNA and linear Z-DNA on the topo II- complex with curved DNA were analyzed in competition experiments. The hierarchy of affinities of the 180 kDa topo IIβ for these DNAs has the order: linear left-handed DNA > supercoiled DNA ⩾ curved DNA ≫ poly[d(A-T)] ⩾ poly[d(G-C)]. The 170 kDa topo IIa binds with similar affinity to curved DNA and linear Z-DNA ⩾ supercoiled DNA ≫ linear B- DNA The data imply that human topoisomerase II binding is more sensitive to DNA secondary structure than to DNA sequence per se. The ability of the enzyme to preferentially recognize a wide variety of sequences in unusual secondary structures suggests a mode of targeting the enzyme in vivo to regions of high negative supercoiling.