Author:
O’Reilly Catherine,Grimaud Ghjuvan M.,Coakley Mairéad,O’Connor Paula M.,Mathur Harsh,Peterson Veronica L.,O’Donovan Ciara M.,Lawlor Peadar G.,Cotter Paul D.,Stanton Catherine,Rea Mary C.,Hill Colin,Ross R. Paul
Abstract
AbstractNisin is a broad spectrum bacteriocin used extensively as a food preservative that was identified in Lactococcus lactis nearly a century ago. We show that orally-ingested nisin survives transit through the porcine gastrointestinal tract intact (as evidenced by activity and molecular weight determination) where it impacts both the composition and functioning of the microbiota. Specifically, nisin treatment caused a reversible decrease in Gram positive bacteria, resulting in a reshaping of the Firmicutes and a corresponding relative increase in Gram negative Proteobacteria. These changes were mirrored by the modification in relative abundance of pathways involved in acetate, butyrate (decreased) and propionate (increased) synthesis which correlated with overall reductions in short chain fatty acid levels in stool. These reversible changes that occur as a result of nisin ingestion demonstrate the potential of bacteriocins like nisin to shape mammalian microbiomes and impact on the functionality of the community.
Funder
Science Foundation Ireland
Publisher
Springer Science and Business Media LLC
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