Antisense oligonucleotide (ASO)-induced cellular signaling pathway alteration is evolving as a promising therapeutic strategy for improving antitumor chemotherapy. However, the inherent instability and inefficiency of ASO delivery remain major hurdles for its application. Herein, we developed a self-assembled DNA nanosponge (DNS) for adsorption and clearance of intracellular miR-21. The densely packed DNA nanostructure is able to provide large amounts of repeated ASO copies for efficient capturing of miR-21 and inhibiting the miRNAs function in mammalian cells. The cell apoptosis-related protein expression (Bcl-2, Bax, and cleaved caspase-3/9) can be obviously interrupted with the delivery of DNS. Besides, we have shown that the DNS can efficiently carry Dox for chemotherapy and inducing tumor cell (MCF-7) apoptosis meanwhile has little affect to normal cells (Hs578 Bst). These polymeric DNS systems mimic the natural RNA circle-based miRNA sponges and have potential to be applied for specific and efficient regulation of gene expression in tumor cells for synergistic antitumor chemotherapy.
Keywords: DNA nanosponge; antisense oligonucleotide; cell apoptosis; enhanced chemotherapy; miRNA-21.