Abstract

Fecal microRNAs (miRNAs) derived from intestinal epithelial cells have been suggested to influence gut microbiota homeostasis. We recently showed that supplementing murine fecal small RNAs, most likely miRNAs, alters the structure of cultured fecal microbiota in a sequence-dependent manner. The present study investigated the effect of consuming fructooligosaccharides (FOS) on the action of fecal small RNAs in altering the structure of cultured fecal microbiota. Female C57BL/6J mice were allowed free access to AIN-93G diet, and tap water supplemented with or without 4% (w/v) FOS for 2 wk. As assessed by 16S rRNA gene sequence analysis in cecal contents, the gut microbiota structure differed between mice supplemented with and without FOS. Fecal bacteria isolated from the cecal contents of mice without FOS supplementation were cultured for 24 h under anaerobic conditions. The structure of cultured microbiota differed between the cultures supplemented with small RNAs isolated from the cecal contents of mice supplemented with and without FOS. Microarray analysis showed that the miRNA profile in the cecal contents differed between mice supplemented with and without FOS. We propose that FOS consumption influences the action of intestinal epithelial cell-derived miRNAs in altering the structure of cultured gut microbiota, and such FOS action is associated with changes in the profile of miRNAs. It may be possible that intestinal epithelial cell-derived miRNAs contribute, at least in part, to diet-induced alteration of gut microbiota.

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