Nondigestible stachyose binds membranous HSP90β on small intestinal epithelium to regulate the exosomal miRNAs: A new function and mechanism

Oligosaccharides are conventionally recognized as “passersby” in the small intestine. However, our research has reframed this understanding by uncovering a new function of oligosaccharide stachyose, which binds hydrophobic residues of membranous HSP90β on small intestinal epithelial cells, thus reprograming the exosomal miRNA profile. CRISPR-Cas9-mediated HSP90β knockout abolished the accumulation of stachyose on cell membrane and its regulatory effects on these miRNAs. Notably, stachyose's regulation on these miRNAs is independent of its prebiotic role, as evidenced by the observation of stachyose-altered fecal miRNAs in pseudo-germ-free mice. These stachyose-altered miRNAs further shaped colonic microbiome, especially harboring Lactobacillus in mice. Thereinto, miR-30a-5p that was downregulated (Log₂FC < −2) in both mice and human feces following stachyose treatment could specifically suppress the growth of Lactobacillus reuteri. These findings build a new regulatory axis of stachyose-intestinal miRNAs-gut microbiota and unveil a previously unknown mechanism underlying the direct “talk” of oligosaccharides to intestine epithelium via membranous HSP90β.