Inhibition of transcription and antiproliferative effects in a cancer cell line using antigene oligonucleotides containing artificial nucleoside analogues

Abstract

Antigene methods are promising novel therapeutic approaches to suppress abnormal gene expression. One of these methods inhibits transcription by forming triplex DNA against duplex DNA. However, by using natural-type triplex-forming oligonucleotides (TFOs), stable triplex formation is limited to homopurine and homopyrimidine strands in targeted duplex DNA. We recently developed artificial nucleoside analogues with the ability to recognize CG and TA inversion sites. We successfully formed stable unnatural-type triplex DNA for duplex DNA containing a CG base pair and extended the target sequence using TFOs containing 2-amino-3-methylpyridinyl pseudo-dC (^3MeAP-ΨdC). Therefore, this present study investigated triplex-forming regions and synthesized antigene TFOs containing ^3MeAP-ΨdC. Some of the synthesized antigene TFOs reduced transcription products and inhibited cell proliferation in several types of cultured cancer cells. The antigene effects of antigene TFOs containing artificial nucleic acids were markedly stronger than those of natural-type TFOs, and these results clearly demonstrated the usefulness of incorporating artificial nucleic acids within TFOs.