Butyrate modulates mucin secretion and bacterial adherence in LoVo cells via MAPK signaling

Short-chain fatty acids contribute to normal bowel function and prevent bacterial infections. In particular, butyrate is a promising candidate that plays an important role in regulating the functional integrity of the gastrointestinal tract by stimulating mucin secretion. We investigated whether butyrate treatment modulates mucin secretion and bacterial adherence in LoVo cells. In addition, the possible signaling pathways were also examined in connection with the upregulation of mucin secretion. The results showed that butyrate induced mucin secretion in LoVo cells, resulting in the inhibition of Escherichia coli adhesion by increasing the adherence of Lactobacillus acidophilus and Bifidobacterium longum. The gene expression analysis suggests that mitogen-activated protein kinase (MAPK) signaling pathways including Cdc42-PAK pathway appears to be involved in stimulating mucin secretion. More importantly, butyrate induced the increased actin expression and polymerization in LoVo cells, which could be attributable to the Cdc42-PAK signaling pathway, implicated in actin cytoskeleton and mucin secretion. Our results provide a molecular basis in modulating bacterial adherence and the MAPK signaling pathway for the improved homeostasis of colonic epithelial cells.

Automated summary

Short-chain fatty acids, especially butyrate, regulate the functional integrity of the gastrointestinal tract by stimulating mucin secretion and preventing bacterial infections. Butyrate treatment increases the adherence of beneficial bacteria and inhibits Escherichia coli adhesion. The involvement of the mitogen-activated protein kinase signaling pathway suggests a potential mechanism for stimulating mucin secretion.