In vitro digestion, absorption and biological activities of acylated anthocyanins from purple sweet potatoes (Ipomoea batatas).

Purple sweet potatoes (PSP) are widely used as color enhancers in food formulations. Investigations on the stability of PSP polyphenolics during simulated digestion and subsequent absorption in a Caco-2 cell monolayer model were accomplished. Measures of bioactive activities were also assessed in vitro. PSP whole polyphenolic extracts as a control (WC) were compared to isolates enriched in anthocyanins (AC) or non-anthocyanin phenolics (NAP). Anthocyanins were also alkali-hydrolyzed to remove acylated moieties. Compounds were subjected to simulated gastro-intestinal digestions where non-hydrolyzed anthocyanins showed higher stability compared to alkali-hydrolyzed. For many alkali-hydrolyzed anthocyanins, the transport through a Caco-2 cell monolayer was reduced. PSP fractions significantly increased the generation of reactive oxygen species in HT-29 cells and was suppressive in the CCD-18Co cells while down-regulated mRNA expression of inflammatory markers. Results indicate the importance of PSP composition and the effects of acyl moieties on anthocyanin stability and functional properties for food colors.