LAUSR

Among all molecules developed for anticancer therapies, photodynamic therapeutic agents have a unique profile. Their maximal activity is specifically triggered in tumors by light and toxicity of even systemically delivered drug is prevented in non-illuminated parts of the body. Photosensitizers exert their therapeutic effect by producing reactive oxygen species via a light-activated reaction with molecular oxygen. Consequently, the lowering of pO2 deep in solid tumors limits their treatment and makes essential the design of oxygen-independent sensitizers. In this perspective, we have recently developed Ir(III)-based molecules able to oxidize biomolecules by type I processes under free-oxygen conditions. We examine here their photo-toxicity in relevant biological models. We show that drugs, which are mitochondria-accumulated, induce upon light irradiation a dramatic decrease of the cell viability, even under low oxygen conditions. Finally, assays on 3D tumor spheroids highlight the importance of the light-activation step and the oxygen consumption rate on the drug activity.