Heavy atom-modified hemicyanine dyes as photosensitizer scaffolds combined with nitric oxide trigger the butterfly effect in tumor therapy

Abstract

Hypoxia is a common feature of solid tumors and is considered to be the fatal flaw of conventional photodynamic therapy (PDT), which severely reduces the overall therapeutic efficacy. Here, we developed a series of halogenated photosensitizers to address this issue. The results showed that the introduction of heavy atoms enhanced the spin-coupling effect of the photosensitizers and effectively improved the type I PDT (non-oxygen-dependent) efficiency. The preferred iodine-substituted photosensitizer NRh–I was used as the basic architecture, and further nitrosyl modification was performed to obtain the NO small-molecule prodrug, which was finally encapsulated with DSPE-mPEG5k to obtain a biocompatible NO nanophotocontrolled prodrug. By using the enhanced permeability and retention effect (EPR), the prodrug system can precisely target the lesion site, release a high concentration of NO by photocontrol, kill the tumor cells, and at the same time, cascade with ROS released with the same “time-space” precision to generate higher cytotoxicity, ONOO−, which generates a stronger targeted synergistic therapeutic effect. This “butterfly effect” strategy maximizes the effect of PDT and broadens the idea of translational medicine.