Monofunctional conjugates of 15-mer triplex-forming oligonucleotide (TFO) with covalently attached bleomycin A5 residue at the 5'-end (Blm-p15) were synthesized. Bifunctional conjugates of TFO containing, in addition to Blm, the residues of intercalator 6-chloro-2-methoxy-9-aminoacridine (Acr) or (N-(2-hydroxyethyl)phenazinium (Phn) were obtained for the first time. The Acr and Phn residues were attached to the 3'-phosphate group of TFO through L1 and L2 linkers, respectively, resulting in the compounds Blm-p15pL1-Acr and Blm-p15pL2-Phn. The values of dissociation constants of the corresponding triplexes were evaluated using the gel retardation method. The Acr residue in Blm-p15pL1-Acr was shown to enhance the stability of the formed triplex by one order of magnitude. It was demonstrated that all synthesized conjugates are capable of specifically and nonspecifically damaging a target DNA, forming direct breaks and alkaline-labile sites. The extent of the specific cleavage of the target DNA was 15% in the case of a fivefold excess of the conjugates over the DNA duplex. The site-specific triplex-mediated cleavage of a target DNA was shown for the first time to occur predominantly (> 90%) with the formation of the direct breaks of both DNA strands. The results show the availability of bleomycin-containing oligonucleotides as antigene compounds.
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