Hypoxia-Induced Photogenic Radicals by Eosin Y for Efficient Phototherapy of Hypoxic Tumors.

The current reported photosensitizers generally show a decreased reactive oxygen species (ROS) generation property under hypoxia conditions, which is the main reason for the clinical failure of photodynamic therapy (PDT) in treatment of solid tumors. Herein, for the first time, hypoxia-induced photogenic radicals by eosin Y (Eos) were reported for efficient phototherapy of hypoxic tumors. More importantly, Eos shows a higher ROS and radical production efficiency under hypoxia conditions than under normoxia conditions. The photogenic radicals were captured by electron paramagnetic resonance and further verified by ROS and radical probe. Introducing CoCl 2 as a hypoxia inducer, the photoinduced therapy of the hypoxia cancer cell model and tumor-bearing mice indicated that bovine serum albumin-Eos in hypoxic tumor sites can produce even higher tumor toxicity, thereby crossing the clinical obstacles of hypoxic tumor therapy. This non-oxygen-dependent PDT may open up an avenue for fighting with hypoxia.