Antimicrobial photodynamic therapy (aPDT) utilizes light, oxygen and a photosensitizer (PS) to enact cell death the production of reactive oxygen species (ROS). This mechanism of cell death, oxidative stress, has allowed aPDT to be effective against antibiotic-resistant bacterial strains, with the development of resistance being minimal as no specific pathway is targeted. While promising, as ambient light can activate PSs, damage to mammalian tissues can occur, leading to drug-induced photosensitivity. To mitigate this, we developed a nitroreductase-activatable PS containing a quenching group that inhibits fluorescence and ROS. Upon reaction with nitroreductase, the quenching group can be liberated, restoring fluorescence and ROS production. As nitroreductase is not present in healthy mammalian tissues but expressed in many bacteria, photosensitivity of mammalian cells can be reduced. Herein, the synthesis and photophysical characterization of the nitroreductase-activatable PS, , is described. was quenched compared to the free PS, , and activation both by purified nitroreductase and in the gram-positive bacterial strain, , was confirmed by fluorescence recovery. Cell viability studies in showed low dark toxicity and an IC of 0.16 μM under 10-minute irradiation (530 nm, 42 mW cm). Minimal toxicity was observed under the same conditions in mammalian cell cultures demonstrating the potential of to mitigate photosensitivity and provide a promising approach for aPDT.
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| http://dx.doi.org/10.1039/d4md00890a | DOI Listing |
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