Interaction of human DNA topoisomerase I with specific sequence oligodeoxynucleotides

The interaction of human DNA topoisomerase I (topo I) with specific sequence oligodeoxynucleotides (ODNs) of different length and structure has been investigated. All the ODNs used were shown to be effective enzyme inhibitors and to inhibit the topo I catalyzed relaxation of scDNA in a competitive manner. Among two DNA regions (A and B) required for topo I-mediated DNA cleavage, the former was found to display the higher affinity for the enzyme. The enzyme's affinity for ODNs corresponding to the scissile strand (five and nine nucleotide units in length) is about 2-4 orders of magnitude higher than that for non-specific ODNs of the same length. Topo I can efficiently recognize even extremely short specific ODNs containing only two or three bases (AGA and pAG, K-i = 15 and 60 mu M, respectively): the sequence AAGA (K-i = 10 mu M) is essential for tight DNA binding to topo I. The affinities of ODNs corresponding to the non-scissile strand are significantly lower. The ligand's affinity increases with its length. Additionally, about a ten-fold enhancement of specific sequence affinity occurs due to stable duplex formation during enzyme preincubation with ligands before addition of scDNA. We believe the possibility of using the short specific oligonucleotides and its derivatives as topoisomerase I-targeting drugs could not be excluded. (C) Societe francaise de biochimie et biologic moleculaire/Elsevier, Paris.