Preparation and pharmacological evaluation of A3B-type tetraphenyltetrabenzoporphyrins for photodynamic anti-tumor therapy

Abstract

A series of A3B-type meso-tetraphenyltetrabenzoporphyrin photosensitizers were designed, synthesized and evaluated. All new compounds exhibited an intense Soret band at ∼ 470 nm and three Q bands at ∼ 595, ∼ 648, and ∼ 701 nm. They all had the ability to produce singlet oxygen upon photoexcitation, and photodynamic activities towards human esophageal carcinoma (Eca-109) cancer cells in vitro. Among them, 5 displayed the excellent cytotoxic effect on Eca-109 cells with the cell viability of ∼30 % at the concentration of 0.5 μM under a light dose of 12 J/cm2. 5 also could induce cell apoptosis after laser irradiation, and display superior photodynamic activity towards Eca-109 cells in vivo. Notably, inflammation and nuclear shrinkage of tumors were observed in the 5-PDT group, while no obvious changes were presented in major organs (heart, kidney liver, lung, and spleen) of mice, and the weight of mice were increased steadily during the treatment period. Hence, compound 5 possesses high photodynamic efficacy and good biosafety, and deserves to be considered as a potential photodynamic drug candidate for cancers.