Abstract
Colonic epithelium–commensal interactions play a very important role in human health and disease development. Colonic mucus serves as an ecologic niche for a myriad of commensals and provides a physical barrier between the epithelium and luminal content, suggesting that communication between the host and microbes occurs mainly by soluble factors. However, the composition of epithelia-derived metabolites and how the commensal flora influences them is less characterized. Here, we used mucus-producing human adult stem cell-derived colonoid monolayers exposed apically to probiotic E. coli strain Nissle 1917 to characterize the host–microbial communication via small molecules. We measured the metabolites in the media from host and bacterial monocultures and from bacteria-colonoid co-cultures. We found that colonoids secrete amino acids, organic acids, nucleosides, and polyamines, apically and basolaterally. The metabolites from host-bacteria co-cultures markedly differ from those of host cells grown alone or bacteria grown alone. Nissle 1917 affects the composition of apical and basolateral metabolites. Importantly, spermine, secreted apically by colonoids, shows antibacterial properties, and inhibits the growth of several bacterial strains. Our data demonstrate the existence of a cross-talk between luminal bacteria and human intestinal epithelium via metabolites, which might affect the numbers of physiologic processes including the composition of commensal flora via bactericidal effects.
Highlights
Growing evidence demonstrates the importance of the interactions between intestinal microbiota and human colonic epithelium in health and pathophysiology
To test the composition of small molecules in human colonoid monolayer (HCM) and Nissle 1917 co-culture, HCM incubated in differentiation media were apically infected with low initial inoculum (103 CFU) of the Nissle 1917 bacteria for 48 h
The apical conditioned media (ApCM) and basolateral conditioned media (BlCM) from the infected monolayers were collected for metabolome analysis
Summary
Growing evidence demonstrates the importance of the interactions between intestinal microbiota and human colonic epithelium in health and pathophysiology. Numerous studies have addressed the important role of diet-dependent and diet-independent bacterial metabolites on the healthy metabolic status of the host intestinal and systemic physiology (kidney, cardiovascular, etc.), including short-chain fatty acids, secondary bile acids, indole, etc. Overall, modulation of these multiple host physiologic and diseaserelated pathways by intestinal microorganisms occurs mainly via the exchange of small molecules between the intestinal lumen and human epithelium [4,9,10]. We characterized the effect of host-produced metabolites on the growth of intestinal luminal bacteria, including Nissle 1917, Enterohemorrhagic Escherichia coli (EHEC), and several other bacterial strains
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