Targeting of single-stranded DNA and RNA containing adjacent pyrimidine and purine tracts by triple helix formation with circular and clamp oligonucleotides

The aim of this work was to construct an anti-messenger targeted to the pim-1 oncogene transcript, based on circular or clamp oligodeoxyribonucleotides. The formation of bimolecular triplexes by clamp or circular oligonucleotides was investigated using single-stranded targets of both DNA (5'-CCCTCCTTTGAAGAA-3') and RNA type (5'-CCCUCCUUUGAAGAA-3'). The third, 'Hoogsteen' strand of the triplex was represented by G,T-rich sequences. The secondary structures of the complexes were determined by thermal denaturation, circular dichroism and gel mobility shift experiments and shown to depend on the nature of the target strand. With DNA as target, the sequence of a clamp (or circular) oligonucleotide that formed the triple helix was 3'-<(GGGAGGAAACTTCTT)under bar>TT-TTGTTGTTT-TT-GGTGGG-5', where the first TT dinucleotide (in italics) is a linker and the second TT (bold) represents the bridge through which the 'Hoogsteen' strand switches from one strand of the Watson-Crick duplex to the other, once the duplex is formed by the corresponding portion of the anti-messenger (underlined). The portion of the 'Hoogsteen' sequence of the triplex between the two TT dinucleotides binds to the 3' extremity of the target strand and runs parallel to it. The portion situated at the 5' end of the oligonucleotide switches to the purine tract of the complementary strand of the duplex and is antiparallel to it. In contrast, with RNA as target, for a branched clamp oligonucleotide that formed a triple helix over its entire length (5'-<(TTCTTCAAAGGAGGG)under bar>-30'(boolean AND)3'-GGGTGGTTT-T-GTTGTT-5') the portion of the 'Hoogsteen' sequence that bound to the 3' extremity of the target strand had to be antiparallel to it.