DNA Nanodevices for Base Excision Repair Regulates ATP In Situ Imaging and Tumor Therapy

The design of DNA nanodevices has attracted broad attention in detecting specific targets and targeted drug delivery capacities of tumor cells. Here, we report the facile fluorometric method of dual-targeting DNA nanodevices for base excision repair (BER) regulates adenosine triphosphate (ATP) in situ imaging and tumor therapy that can counteract the mutagenic effects of uracil (U) on ATP aptamer based on the binding of U-containing damaged ATP aptamer. We prove that the DNA nanodevices not only effectively deliver the aptamer probe and tumor therapy but also able to analyze the overexpression of APE1 and uracil-DNA glycosylases (UDG) in the BER pathway via ATP in situ imaging in tumor cells. Therefore, the DNA nanodevices of the BER pathway provide the potential for tumor theranostics.