Conventional chemotherapeutic drugs are nonselective and harmful toward normal tissues, causing severe side effects. Therefore, the development of chemotherapeutics that can target cancer cells and improve therapeutic efficacy is of high priority. Biomolecules isolated from nature serve as green solutions for biomedical use, solving biocompatibility and cytotoxicity issues in human bodies. Herein, we use kiwifruit-derived DNA to encapsulate doxorubicin (DOX) using crosslinkers, eventually forming DNA-DOX nanogels (NGs). Drug releasing assays, cell viability and anticancer effects were analyzed to evaluate the DNA NGs' applications. The amount of DOX released by the DOX-loaded DNA (DNA-DOX) NGs at acidic pH was higher than that of neutral pH, and high glutathione (GSH) concentration also triggered more DOX to release in cancer cells, demonstrating pH- and GSH-triggered drug release characteristics of the DNA NGs. The IC50 of DNA-DOX NGs in cancer cells was lower than that of free DOX. Moreover, DOX uptake of cancer cells and apoptotic death were enhanced by the DNA-DOX NGs compared to free DOX. The results suggest that the DNA NGs cross-linked via nitrogen bases of the nucleotides in DNA and presenting pH- and GSH-dependent drug releasing behavior can be alternative biocompatible drug delivery systems for anticancer strategies and other biomedical applications.
Keywords: Anticancer; DNA; Disulfide cross-linking; Drug carrier; Nanogels; pH- and glutathione-triggered drug release.
Copyright © 2020 Elsevier B.V. All rights reserved.