A pH-Responsive Dendritic-DNA-Based Nanohydrogel for Dual Drug Delivery
2025
Jing Zhao | Jingyuan Wu | Yiqi Fan | Chao Yu | Le Yu | Fangwei Shao
The rational design of multifunctional drug delivery systems capable of achieving precise drug release remains a huge challenge. Herein, we designed a stimuli-responsive dendritic-DNA-based nanohydrogel as a nanocarrier to achieve the co-delivery of doxorubicin and <i>HMGN5</i> mRNA-targeting antisense oligonucleotides, thus achieving dual therapeutic effects. The nanocarrier, constructed from dendritic DNA with three crosslinking branches and one loading branch, formed biocompatible and programmable DNA nanohydrogels. The C-rich sequences in the crosslinking branches conferred pH sensitivity, while the loading strand enabled efficient incorporation of a shielding DNA/ASO complex. DOX encapsulation yielded a chemo–gene co-delivery platform. Upon cellular uptake by cancer cells, the nanocarrier disassembled in the acidic tumor microenvironment, releasing DOX for chemotherapy and ASOs via toehold-mediated strand displacement (TMSD) for targeted gene silencing. Cellular studies demonstrated significantly enhanced cancer cell inhibition compared to single-agent treatments, highlighting strong combined effects. This study provides a novel strategy for tumor-microenvironment-responsive co-delivery, enabling precise, on-demand release of therapeutic agents to enhance combined chemo–gene therapy.
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