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Abstract

It is challenging to design rolling circle amplification (RCA) for tumor-selective delivery of drugs. Here, we devise a doxorubicin nanocarrier composed of RCA products, cholesterol-DNA, and folate-DNA conjugates. RCA products, designed to contain tandem repeats of short hairpin DNA, employ the repeated sequences complementary to both DNA conjugates, and thus RCA products/cholesterol-DNA/folate-DNA complexes, generated via sequential base pairing processes, acquire the amphiphilic properties that facilitate self-assembly into the highly condensed nanoparticles (RCA nanoparticles). Doxorubicin-loaded RCA nanoparticles, especially with high cargo capacity, release drugs to the environment with the aid of acidity and show selective cytotoxicity to cancer cells. Particularly, the condensed structures enable RCA nanoparticles to be resistant to nucleases in the blood. These results show that RCA nanoparticles have great potential as a doxorubicin carrier for targeted cancer therapy, and furthermore, our strategy provides an alternative tool to exploit RCA techniques on drug delivery systems. 

Author information

Kim JH1, Jang M1, Kim YJ1, Ahn HJ1.

1Center for Theragnosis, Biomedical Research Institute, Korea Institute of Science and Technology , 39-1 Hawolgok-dong, Seongbuk-Gu, Seoul 136-791, South Korea.