Reactive Oxygen Species Activatable Heterodimeric Prodrug as Tumor-Selective Nanotheranostics.

Nanotheranostics based on tumor-selective small molecular prodrugs could be more advantageous in clinical translation for cancer treatment, given its defined chemical structure, high drug loading efficiency, controlled drug release, and reduced side effects. To this end, we have designed and synthesized a reactive oxygen species (ROS)-activatable heterodimeric prodrug, namely, HRC, and nanoformulated it for tumor-selective imaging and synergistic chemo- and photodynamic therapy. The prodrug consists of the chemodrug camptothecin (CPT), the photosensitizer 2-(1-hexyloxyethyl)-2-devinyl pyropheophorbide-a (HPPH), and a thioketal linker. Compared to CPT- or HPPH-loaded polymeric nanoparticles (NPs), HRC-loaded NPs possess higher drug loading capacity, better colloidal stability, and less premature drug leakage. Interestingly, HRC NPs were almost nonfluorescent due to the strong π-π stacking and could be effectively activated by endogenous ROS once entering cells. Thanks to the higher ROS levels in cancer cells than normal cells, HRC NPs could selectively light up the cancer cells and exhibit much more potent cytotoxicity to cancer cells. Moreover, HRC NPs demonstrated highly effective tumor accumulation and synergistic tumor inhibition with reduced side effects on mice.