Details

Autor(en) / Beteiligte

• Lin, Yu-Feng
• Lin, Yu-Syuan
• Huang, Tzu-Yun
• Wei, Shih-Chun
• Wu, Ren-Siang
• Huang, Chih-Ching
• Huang, Yu-Fen
• Chang, Huan-Tsung

Titel

Photoswitchable carbon-dot liposomes mediate catalytic cascade reactions for amplified dynamic treatment of tumor cells

Ist Teil von

• Journal of colloid and interface science, 2022-12, Vol.628, p.717-725

Ort / Verlag

Elsevier Inc

Erscheinungsjahr

2022

Quelle

Alma/SFX Local Collection

Beschreibungen/Notizen

• The photocatalytic oxidase- and peroxidase-mimic properties of carbon-dot liposomes (CDsomes) have been investigated for in situ cascade reactions. The programming of multienzyme-mimic cascades is attributed to the conspicuous photoswitchable property of CDsomes, which offers sufficient ROS and thus kill cancer cells with high spatiotemporal resolutions. [Display omitted] Most biochemical reactions that occur in living organisms are catalyzed by a series of enzymes and proceed in a tightly controlled manner. The development of artificial enzyme cascades that resemble multienzyme complexes in nature is of current interest due to their potential in various applications. In this study, a nanozyme based on photoswitchable carbon-dot liposomes (CDsomes) was developed for use in programmable catalytic cascade reactions. These CDsomes prepared from triolein are amphiphilic and self-assemble into liposome-like structures in an aqueous environment. CDsomes feature excitation-dependent photoluminescence and, notably, can undergo reversible switching between a fluorescent on-state and nonfluorescent off-state under different wavelengths of light irradiation. This switching ability enables the CDsomes to exert photocatalytic oxidase- and peroxidase-like activities in their on- (bright) and off- (dark) states, respectively, resulting in the conversion of oxygen molecules into hydrogen peroxide (H2O2), followed by the generation of active hydroxyl radicals (OH). The two steps of oxygen activation can be precisely controlled in a sequential manner by photoirradiation at different wavelengths. Catalytic reversibility also enables the CDsomes to produce sufficient reactive oxygen species (ROS) to effectively kill tumor cells. Our results reveal that CDsomes is a promising photo-cycling nanozyme for precise tumor phototherapy through regulated programmable cascade reactions.