Abstract 1603: Synthesis and in vitro evaluation of lipophilic cation conjugated photosensitizers for targeting mitochondria.

Abstract Mitochondria-specific photosensitizers were designed by taking advantage of the preferential localization of delocalized lipophilic cations (DLCs) in mitochondria. Three conjugates, CMP-Rh, CMP-tPP, and CMP-(tPP)2, were successfully synthesized by linking the hydroxy core modified porphyrins (CMP-OH and CMP-(OH)2) to either rhodamine B (Rh B) or one or two triphenyl phosphine (tPP) cations respectively via a saturated hydrocarbon linker. Their ability for delivering photosensitizers to mitochondria was evaluated using dual staining fluorescence microscopy and staining pattern was compared with a mitochondrial specific probe. Fluorescence imaging study suggested that CMP-Rh specifically localized in mitochondria. On the other hand, CMP-tPP and CMP-(tPP)2 showed less significant mitochondrial localization. The conjugation of CMP to Rh and tPP did greatly improve intracellular uptake and in vitro photodynamic activity compared to CMP-OH. In addition, to evaluate the efficiency of the conjugates as photosensitizers, their photophysical properties and in vitro biological activities were studied in comparison to those of CMP-OH. All conjugates were capable of generating singlet oxygen at rates comparable to CMP-OH. This improved photodynamic activity might be primarily due to an enhanced cellular uptake. Our study suggests that Rh B cationic group is better at least for CMP than tPP as a mitochondrial targeting vector. Citation Format: Pallavi Rajaputra, Gregory Nkepang, Ryan Watley, Youngjae You. Synthesis and in vitro evaluation of lipophilic cation conjugated photosensitizers for targeting mitochondria. [abstract]. In: Proceedings of the 104th Annual Meeting of the American Association for Cancer Research; 2013 Apr 6-10; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2013;73(8 Suppl):Abstract nr 1603. doi:10.1158/1538-7445.AM2013-1603