Zinc-pheophorbide a—Highly efficient low-cost photosensitizer against human adenocarcinoma in cellular and animal models

Abstract

Our previous study has shown a prolonged retention and accumulation of Zn-pheophorbide a, a water-soluble derivative of chlorophyll a, in tumor tissue (Szczygiel et al. [19]). This prompted us to further evaluate the phototherapeutic potential of this photosensitizer of excellent physicochemical properties. Cellular uptake of Zn-pheophorbide, its localization in cells, cytotoxicity, phototoxicity and cell death mechanisms were studied in human adenocarcinoma cell lines: A549, MCF-7 and LoVo. The PDT efficacy was tested against A549 tumors growing in nude mice. Zn-pheophorbide a even at very low concentrations (∼1×10(-6)M) and at low light doses (5J/cm(2)) causes a strong photodynamic effect, leading to 100% cell mortality. Confocal microscopy showed that in contrast to most derivatives of chlorophyll, Zn-pheophorbide a does not localize to mitochondria. The photodynamic effects and the cell death mechanisms of Zn-pheophorbide a, its Mg analog (chlorophyllide a) and Photofrin were compared on the A549 cells. Zn-pheophorbide a showed the strongest photodynamic effect, at low dose killing all A549 cells via apoptosis and necrosis. The very high anti-cancer potential of Zn-pheophorbide was confirmed in a photodynamic treatment of the A549 tumors. They either regressed or were markedly inhibited for up to 4 months after the treatment, resulting, on average, in a 5-fold decrease in tumor volume. These results show that Zn-pheophorbide a is a very promising low-cost, synthetically easily accessible, second generation photosensitizer against human cancer.