9-acetoxy-2,7,12,17-tetrakis-(beta-methoxyethyl)-porphycene (ATMPn) a novel photosensitizer for photodynamic therapy: Uptake kinetics and intracellular localization

The optimal photosensitizer for topical or systemic photodynamic therapy (PDT) has not yet been found. A promising new second-generation sensitizer is 9-acetoxy-2,7,12,17-tetrakis-(beta-methoxyethyl)-porphycene (ATMPn) whose time- and temperature-dependent uptake and intracellular localization were investigated in two human-skin-derived cell lines (HaCaT keratinocytes and dermal fibroblasts). Flow cytometry analysis (0-800 s) revealed an immediate increase in fluorescence in the cells after start of incubation with 100 ng ml(-1) ATMPn (in cell culture medium). At longer incubation periods (0-24 h) a constant increase in fluorescence up to 12 h, with a steady state up to 24 h, was observed. Keratinocytes showed a faster rate of ATMPn uptake than fibroblasts within the first 12 h. Temperature-dependent ATMPn uptake was measured at 4 and 37 degrees C. An increase in fluorescence was observed even at 4 degrees C, suggesting that cellular uptake of ATMPn is partially based on passive diffusion. Confocal laser scan microscopy showed spotty, granular fluorescence inside the cytoplasm after incubation with ATMPn, similar to the pattern of rhodamine 123 which stains mitochondria. These results demonstrated an unusually fast intracellular, probably intramitochondrial, uptake of ATMPn in vitro. Therefore the use of ATMPn in photodynamic therapy might allow a reduction of the time span between administration of drug and irradiation.