화학공학소재연구정보센터
Langmuir, Vol.37, No.8, 2740-2748, 2021
Cellular Uptake, Organelle Enrichment, and In Vitro Antioxidation of Fullerene Derivatives, Mediated by Surface Charge
Hydrophilic fullerene derivatives get notable performance in various biological applications, especially in cancer therapy and antioxidation. The biological behaviors of functional fullerenes are much dependent on their surface physicochemical properties. The excellent reactive oxygen species-scavenging capabilities of functional fullerenes promote their outstanding performances in inhibiting pathological symptoms associated with oxidative stress, including neurodegenerative diseases, cardiovascular diseases, acute and chronic kidney disease, and diabetes. Herein, fullerene derivatives with reversed surface charges in aqueous solutions are prepared: cationic C-60-EDA and anionic C-60-(EDA-EA). Under the driving force of membrane potential (negative inside) in the cell and mitochondria, C-60-EDA is much rapidly taken in by cells and transported into mitochondria compared with C-60-(EDA-EA) that is enriched in lysosomes. With high cellular uptake and mitochondrial enrichment, C-60-EDA exhibits stronger antioxidation capabilities in vitro than C-60-(EDA-EA), indicating its better performance in the therapy of oxidation-induced diseases. It is revealed that the cellular uptake rate, subcellular location, and intracellular antioxidation behavior of fullerene derivatives are primarily mediated by their surface charges, providing new strategies for the design of fullerene drugs and their biological applications.