Plasma Membrane-Targeted Photooxidant for Chemotherapy-Enhanced Lipid Peroxidation

Although photodynamic therapy (PDT) is a promising antitumor strategy for tumor treatment, the short half-life and the limited diffusion distance of reactive oxygen species (ROS) greatly hamper its antitumor efficacy. Moreover, tumor cells develop antioxidative microenvironments to weaken the oxidative damage caused by PDT. Herein, a plasma membrane-targeted photooxidant (designated as SCPP) is prepared by the self-assembly of a chimeric peptide (Pal-K(PpIX)-R4) and sorafenib. Plasma membrane-targeted SCPP could enhance lipid peroxidation (LPO) through in situ PDT upon light irradiation. Moreover, sorafenib-mediated chemotherapy could block cystine/glutamate antiporter xCT (SLC7A11) to inhibit the syntheses of intracellular GSH and glutathione peroxidase 4 (GPX4), which would destroy the antioxidant defense system of tumors. As a consequence, SCPP achieves a highly efficient tumor inhibition through enhanced PDT and ferroptosis therapy. This study might provide guidance for multisynergistic tumor therapy with a sophisticated mechanism under unfavorable conditions.