Intestinal SGLT1-mediated absorption and metabolism of benzyl beta-glucoside contained in Prunus mume: carrier-mediated transport increases intestinal availability.

The intestinal absorption of benzyl beta-glucoside (BNZ beta glc) contained in the fruit of Prunus mume SIEB. et ZUCC. (Rosaceae), which is traditionally used as a medicinal food in Japan, was studied in rat intestines. BNZ beta glc was absorbed from the mucosal to serosal sides. Its metabolite, benzyl alcohol (BAL), was also detected on both the mucosal and serosal sides. In the presence of phloridzin (Na(+)/glucose cotransporter (SGLT1) inhibitor) or in the absence of Na+ (driving force), BNZ beta glc absorption was significantly decreased. Transport clearance of BNZ beta glc across the brush border membrane decreased as its concentration increased. These results indicate that BNZ beta glc is transported by SGLT1. Metabolic clearance of BNZ beta glc also decreased as its concentration increased. The amount ratio of BNZ beta glc to BAL on the serosal side increased with the increase of BNZ beta glc concentration. The intestinal availability of BNZ beta glc was lower in the absence of Na+ than in the presence of Na+, indicating that the SGLT1-mediated transport of BNZ beta glc increases intestinal availability by decreasing the intestinal extraction ratio. This neutraceutical study concluded that intestinal carrier-mediated transport across the brush border membrane improves the intestinal availability of nutritionally, pharmacologically or physiologically active compounds that undergo intestinal metabolism (first-pass effect).