Inhibition of breast cancer cell proliferation with anti-microRNA oligonucleotides flanked by interstrand cross-linked duplexes

Abstract

Breast cancer is the most frequent cancer affecting women worldwide. Traditional chemotherapy, hormone therapy, and targeted therapy are used for breast cancer treatment. However, breast cancer is a heterogeneous disease, and patients often develop drug resistance. Therefore, various new therapeutic strategies have been investigated, including microRNA regulation. Anti-microRNA oligonucleotides (AMOs) are one of the most potent agents in oligonucleotide therapy. The inhibition activity of an AMO can be increased by flanking its single-stranded antisense sequence (the widely used structure for AMOs) with interstrand cross-linked duplexes (CLDs). An extrastable CLD improves nuclease resistance and stabilizes hybridization with a target. This study investigated the effects of anti-microRNA-21 (miR-21) AMO modified with CLDs on breast cancer cells without using reporter assay. The CLD-modified AMO suppressed breast cancer cell proliferation for a long duration compared to other types of AMOs. In addition, it expectedly up-regulated the miR-21-controlled expression of tumor suppressor genes. Therefore, an AMO flanked by CLDs can be a promising strategy for breast cancer treatment.