Abstract
Anthocyanin (ACN) has attracted considerable attention due to its wide range of physiological effects. However, challenges such as poor stability and limited bioavailability have hindered its utilization in functional foods. To address these issues, this research utilized milk-derived extracellular vesicles (MEV) as carriers for encapsulating and binding ACN through various techniques, including ultrasonic, electroporation, saponin treatment, incubation, and freeze-thaw cycles. The objective of these approaches was to enhance the stability of ACN and improve its oral delivery. Notably, the ACN-loaded MEV (MEV-ACN) prepared through ultrasonic exhibited small particle sizes and good stability under processing, storage, and simulated digestion conditions. Cellular studies revealed that MEV-ACN exhibited pro-oxidant properties and induced oxidative stress, leading to cell apoptosis with greater efficacy compared to free ACN. These findings suggest that encapsulating ACN within MEV can significantly enhance its processing and oral stability, as well as strengthening its dietary defense capabilities in anti-tumor applications.
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