Abstract
Background/Objectives: Anthocyanins (ACNs) derived from mulberry (Morus alba L.) exhibit potent antioxidant and anti-inflammatory activities. However, their low stability and bioavailability in physiological environments limit their therapeutic potential. This study aimed to enhance the stability and controlled release ACNs using a hot-melt extrusion drug delivery system (HME-DDS) formulation, HME-MUL-F2, and evaluate its effects on gut barrier function and microbiota composition in a DSS-induced colitis model. Methods: The anthocyanin content of HME-MUL-F2 was quantified and compared with that of raw mulberry extract. The formulation's protective effects were assessed in Caco-2 and RAW 264.7 cells, confirming its biocompatibility and anti-inflammatory properties. The therapeutic efficacy was further evaluated in a dextran sulfate sodium (DSS)-induced inflammatory bowel disease (IBD) model, focusing on gut barrier integrity, inflammatory cytokine modulation, and gut microbiota composition. Results: HME-MUL-F2 significantly improved gut barrier function by upregulating tight junction proteins and reducing inflammatory cytokine levels in the colitis model. Moreover, the formulation modulated gut microbiota composition, promoting beneficial bacteria while suppressing pathogenic strains. HME-MUL-F2 administration led to a significant increase in the Bacteroidetes-to-Firmicutes ratio, which is associated with improved gut health. These results indicate that HME-MUL-F2 significantly enhances anthocyanin bioavailability, leading to improved gut health and potential therapeutic applications for inflammatory conditions. Conclusions: This study highlights the potential of HME technology for improving the stability, bioavailability, and therapeutic efficacy of anthocyanins. HME-MUL-F2 is a sustained-release formulation that enhances gut barrier function and modulates intestinal microbial balance in a DSS-induced inflammatory bowel disease model. These findings strongly suggest that the observed therapeutic effects of HME-MUL-F2 are primarily due to enhanced anthocyanin bioavailability and targeted delivery to the colon, although further clinical studies will provide more definitive confirmation.