Corroles possess key photophysical and photochemical properties to be exploited as therapeutic agents in antimicrobial photodynamic therapy (aPDT). Herein, we present for the first time the antimicrobial efficiency of three corrole dimers and of the corresponding precursor against the Gram(+) bacterium
Staphylococcus aureus
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Corroles possess key photophysical and photochemical properties to be exploited as therapeutic agents in antimicrobial photodynamic therapy (aPDT). Herein, we present for the first time the antimicrobial efficiency of three corrole dimers and of the corresponding precursor against the Gram(+) bacterium
Staphylococcus aureus. Additionally, to explore future clinical applications, the cytotoxicity of the most promising derivatives towards Vero cells was evaluated. The aPDT assays performed under white light irradiation (50 mW/cm
2; light dose 450 J/cm
2) and at a corrole concentration of 15 µM showed that some dimers were able to reduce 99.9999% of
S. aureus strain (decrease of 5 log
10 CFU/mL) and their photodynamic efficiency was dependent on position, type of linkage, and aggregation behavior. Under the same light conditions, the corrole precursor
1 demonstrated notable photodynamic efficiency, achieving total photoinactivation (>8.0 log
10 CFU/mL reduction) after the same period of irradiation (light dose 450 J/cm
2). No cytotoxicity was observed when Vero cells were exposed to corrole
1 and dimer
3 for 24 h according to ISO guidelines (ISO 10993-5) for in vitro cytotoxicity of medical devices. The results show that corrole dimers, dependent on their structures, can be considered good photosensitizers to kill
Staphylococcus aureus.
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