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Improvement of Photodynamic Activity by a Stable System Consisting of a C<sub>60</sub> Derivative and Photoantenna in Liposomes

Risako Shimada, Shodai Hino, Keita Yamana, Riku Kawasaki, Toshifumi Konishi, Atsushi Ikeda

2022ACS Medicinal Chemistry Letters12 citationsDOIOpen Access PDF

Abstract

A dyad system comprising a lipid membrane-incorporated fullerene derivative with an N,N-dimethylpyrrodinium group (C60-1) and a photoantenna molecule (DiD) did not exhibit the high photodynamic activity expected based on its singlet oxygen generation ability. Comparison with a fullerene derivative with an amide substituent (C60-2) suggested the cause to be that some of the fullerene derivative had been released from the liposomes, partly disrupting the dyad system. The dyad system of C60-2 and DiD exhibited about twice the photodynamic activity toward HeLa cells as that of C60-1 and DiD, due to the suppression of the release of the fullerene derivative from the liposomes. The hydrophobicity/hydrophilicity balance of the substituent in fullerene derivatives was shown to be very important to obtain a dyad system in liposomes characterized by high photodynamic activity.

Topics & Concepts

SubstituentSinglet oxygenDerivative (finance)LiposomeDyadFullereneChemistryPhotodynamic therapyHeLaAmideMembranePhotochemistryCombinatorial chemistryStereochemistryOxygenOrganic chemistryBiochemistryIn vitroFinancial economicsSocial psychologyPsychologyEconomicsFullerene Chemistry and ApplicationsPorphyrin and Phthalocyanine ChemistryNanoplatforms for cancer theranostics
Improvement of Photodynamic Activity by a Stable System Consisting of a C<sub>60</sub> Derivative and Photoantenna in Liposomes | Litcius