A Cyanine‐Mediated Self‐Assembly System for the Construction of a Two‐in‐One Nanodrug

The combination of gene therapy and chemotherapy provides a We developed a simple and versatile approach to prepare a series of two-in-one nanodrugs through direct self-assembly of cyanine-labeled single-stranded DNA (Cys-DNA) and different types of drug molecules. Molecular dynamics simulation showed that the Cys introduced into the DNA could enhance the noncovalent interaction between Cys-DNA and drug molecules. More drug molecules were incorporated into Cys-DNA, tending to spontaneously form hybrid Cys-DNA/drug nanosphere. Such nanospheres serve as both carriers and cargoes, excluding the extra use of nontherapeutic excipients and showing ultrahigh drug loading capacity. Following this approach, an antisense oligonucleotides/doxorubicin nanodrug model was constructed, demonstrating the significant synergistic anti-tumor therapeutic effect. As a proof of the concept, our study establishes a simple and reproducible two-in-one nucleic acid-based drug formulation.