Two human milk-like synthetic bacterial communities displayed contrasted impacts on barrier and immune responses in an intestinal quadricellular model
Résumé
Abstract
The human milk (HM) microbiota, a highly diverse microbial ecosystem, is thought to contribute to the health benefits associated with breastfeeding, notably through its impact on infant gut microbiota. Our objective was to further explore the role of HM bacteria on gut homeostasis through a “disassembly/reassembly” strategy. HM strains covering the diversity of HM cultivable microbiota were first characterized individually and then assembled in synthetic bacterial communities (SynComs) using two human cellular models, peripheral blood mononuclear cells (PBMC) and a quadricellular model mimicking intestinal epithelium. Selected HM bacteria displayed a large range of immunomodulatory properties and had variable effects on epithelial barrier, allowing their classification in functional groups. This multispecies characterization of HM bacteria showed no clear association between taxonomy and HM bacteria impacts on epithelial immune and barrier functions, revealing the entirety and complexity of HM bacteria potential. More importantly, the assembly of HM strains in two SynComs with similar taxonomic composition but with strains that exhibited different properties individually, resulted in contrasted impacts on the epithelium, these impacts of SynComs partially diverging from the predicted ones based on individual bacteria. Overall, our results indicate that the functional properties of the HM bacterial community rather than the taxonomic composition itself could play a crucial role in intestinal homeostasis of infants.
Auteurs, date et publication :
Auteurs Charles Le Bras , Lucie Rault , Nolwenn Jacquet , Nathalie Daniel , Victoria Chuat , Florence Valence , Amandine Bellanger , Latifa Bousarghin , Sophie Blat , Yves Le Loir , Isabelle Le Huërou-Luron , Sergine Even
Publication : ISME Communications
Date : 2024
Pages : ycad019