Herein, we presented a novel DOX-loaded multi-storey DNA nanostructure, including AS1411 aptamer as a targeting agent for treatment of target cells (MCF-7 and 4T1). Gel retardation test and fluorometric analysis were used to examine the construction of DNA nanostructure and loading of DOX in the complex. At pH 5.5 and 7.4, the release patterns of DOX from the prepared formulation were studied. Cell viability test was conducted to analyse the cell cytotoxicity ability of the DOX loaded multi-storey DNA nanostructure compared to free DOX in 4T1, MCF-7 (target) and CHO cells (non-target). Flow cytometry analysis was used to examine the DOX-loaded DNA nanostructure internalisation. Finally, the developed DOX-loaded multi-storey DNA nanostructure was tested in vivo to see if it could prevent tumour growth. The drug was released from the nanocomplex in a pH-related process (higher release in acidic pH compared to neutral pH). According to MTT assay, DOX-loaded DNA nanostructure damaged nucleolin positive cells while not significantly affecting nucleolin negative cells. The formulation was efficaciously internalised into target cells (4T1 and MCF-7), but not into non-target ones. Moreover, DOX-loaded DNA nanostructure can restrict tumour growth, increase survival rate, and accumulate significantly more in the tumour site than free DOX.
Keywords: AS1411 aptamer; DNA origami; Multi-storey DNA nanostructure; doxorubicin; targeted delivery.