A carrier free photodynamic oxidizer for enhanced tumor therapy by redox homeostasis disruption

Abnormal tumor microenvironments play important roles in cancer progression. In general, tumor cells are capable of upregulating glutathione (GSH) levels to maintain aberrant redox homeostasis and cause resistance to oxidative damage. Herein, we develop a photodynamic oxidizer to disrupt the redox homeostasis of tumor cells for enhanced photodynamic tumor therapy. Based on pyropheophorbide-a (Pyro) and naphthazarin (Nap), a carrier free photodynamic oxidizer (named PyroNap) is prepared by the self-assembly technique through hydrophobic interactions. It is confirmed that nanosized PyroNap has high drug contents as well as favorable dispersity and stability. Besides, the photodynamic property of Pyro has obviously improved after self-assembly into the nanomedicine of PyroNap, which facilitates the production of reactive oxygen species (ROS) for robust photodynamic therapy (PDT). More importantly, the Nap induced GSH decrease could disrupt the redox homeostasis of tumor cells to further improve the PDT efficacy on tumor suppression. Consequently, after intravenous administration, PyroNap was able to significantly inhibit tumor growth and cause minimal side effects. This study might shed light on developing translational nanomedicine for tumor precision therapy.

Automated summary

This study developed a photodynamic oxidizer to disrupt the redox homeostasis of tumor cells, resulting in enhanced photodynamic tumor therapy. The nanomedicine PyroNap, prepared through self-assembly technique, showed improved photodynamic properties and GSH decrease induced by Nap, leading to significant inhibitory effects on tumor growth with minimal side effects. This research sheds light on developing translational nanomedicine for tumor precision therapy.