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Cyclodextrin complexed [60]fullerene derivatives with high levels of photodynamic activity by long wavelength excitation.

ABSTRACT: We have evaluated the photodynamic activities of C60 derivative·?-cyclodextrin (?-CDx) complexes and demonstrated that they were significantly higher than those of the pristine C60 and C70·?-CDx complexes under photoirradiation at long wavelengths (610-720 nm), which represent the optimal wavelengths for photodynamic therapy (PDT). In particular, the cationic C60 derivative·?-CDx complex had the highest photodynamic ability because the complex possessed the ability to generate high levels of (1)O2 and provided a higher level of intracellular uptake. The photodynamic activity of this complex was greater than that of photofrin, which is the most widely used of the known clinical photosensitizers. These findings therefore provide a significant level of information toward the optimization of molecular design strategies for the synthesis of fullerene derivatives for PDT.

SUBMITTER: Ikeda A 

PROVIDER: S-EPMC4027534 | biostudies-literature | 2013 Aug

REPOSITORIES: biostudies-literature

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Cyclodextrin complexed [60]fullerene derivatives with high levels of photodynamic activity by long wavelength excitation.

Ikeda Atsushi A   Iizuka Tatsuya T   Maekubo Naotake N   Aono Ryota R   Kikuchi Jun-Ichi J   Akiyama Motofusa M   Konishi Toshifumi T   Ogawa Takuya T   Ishida-Kitagawa Norihiro N   Tatebe Hisashi H   Shiozaki Kazuhiro K  

ACS medicinal chemistry letters 20130618 8

We have evaluated the photodynamic activities of C60 derivative·γ-cyclodextrin (γ-CDx) complexes and demonstrated that they were significantly higher than those of the pristine C60 and C70·γ-CDx complexes under photoirradiation at long wavelengths (610-720 nm), which represent the optimal wavelengths for photodynamic therapy (PDT). In particular, the cationic C60 derivative·γ-CDx complex had the highest photodynamic ability because the complex possessed the ability to generate high levels of (1)  ...[more]

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