ROS triggered cleavage of thioketal moiety to dissociate prodrug nanoparticles for chemotherapy

With the utilization of high concentration reactive oxygen species (ROS) in tumor microenvironment, PEG-doxorubicin (PEG-DOX) prodrug was synthesized via a thioketal moiety as the linker, which was ROS cleavable to trigger DOX release from the self-assembled prodrug nanoparticles. The in vitro ROS sensitivity of prodrug nanoparticles (NPs) was investigated in Fenton agent and H2O2, and the disassembly of NPs was more sensitive to Fenton reagent. After internalized in HepG2 cells via endocytosis, the cellular ROS consuming test revealed intracellular DOX release. The pharmacokinetics and biodistribution study demonstrated that the in vivo elimination of NPs was significantly improved and the NPs were passively targeted to tumor tissues via EPR effect. The ROS-responsive prodrug NPs exhibited excellent antitumor activity in HepG2 tumor-bearing nude mice, remarkably induced tumor cells apoptosis and reduced the systemic toxicity of DOX. Our study revealed the ROS responsive prodrug nanoparticle is an effective strategy to fabricate nanomedicine for cancer chemotherapy.