Title
Polypeptide-engineered DNA tetrahedrons for targeting treatment of colorectal cancer viaapoptosis and autophagy
Author
Nan Zhang, Yanan Yang, Ziyi Wang, Jing Yang, Xiao Chu, Jin Liu, Yongxing Zhao
Year
2019
Journal
Journal of Controlled Release
Abstract
Smart delivery of therapeutic peptides that target cellular signaling pathways holds high specificity and great promise for cancer therapy. Here, DNA tetrahedrons (TDs) are designed to carry two therapeutic peptides-FAS peptide and FK-16 peptide. DNA TDs are designed with varied numbers and spatial placement of FAS peptides and FK-16 peptides, and tested for their anti-cancer efficacy. Trimerization of FAS receptors using TDs that are assembled with three FAS peptides enhances FAS-induced cell apoptosis. FK-16 peptides are conjugated to TDs via a peptide sequence sensitive to MMP-2/9 in tumor microenvironment. Therefore, FK-16 peptides are expected to detach from TDs once arrived the tumor microenvironment. A cell penetrating peptide (TAT) is also conjugated to the FK-16 peptide to facilitate its intracellular delivery, which increases the FK-16 peptide-induced cell apoptosis and autophagy. TD-3(TFM)3(FAS) (TFM: TAT + FK-16 + MMP-2/9) exhibits the highest HT-29 inhibition in vitro and in vivo among all therapies. In addition to the high anti-cancer efficacy, TD-3(TFM)3(FAS) shows a high specificity to HT-29 cells in vitro and in vivo. Low cell inhibition rates and cellular uptake are observed in normal cells. In sum, the multifunctional TD-3(TFM)3(FAS) provides a new platform for the smart delivery of anti-cancer peptides to achieve enhanced efficacy and high specificity.
Instrument
J-1500
Keywords
Circular dichroism, DNA structure, Secondary structure, Chemical stability, Biochemistry