Defined microbiota transplant restores Th17/RORγt+ regulatory T cell balance in mice colonized with inflammatory bowel disease microbiotas.
Graham J BrittonEduardo J ContijochMatthew P SpindlerVarun AggarwalaBelgin DoganGerold BongersLani San MateoAndrew BaltusAnuk DasDirk GeversThomas J BorodyNadeem O KaakoushMichael A KammHazel MitchellSudarshan ParamsothyJose C ClementeJean Frederic ColombelKenneth W SimpsonMarla C DubinskyAri M GrinspanJeremiah J FaithPublished in: Proceedings of the National Academy of Sciences of the United States of America (2020)
The building evidence for the contribution of microbiota to human disease has spurred an effort to develop therapies that target the gut microbiota. This is particularly evident in inflammatory bowel diseases (IBDs), where clinical trials of fecal microbiota transplantation have shown some efficacy. To aid the development of novel microbiota-targeted therapies and to better understand the biology underpinning such treatments, we have used gnotobiotic mice to model microbiota manipulations in the context of microbiotas from humans with inflammatory bowel disease. Mice colonized with IBD donor-derived microbiotas exhibit a stereotypical set of phenotypes, characterized by abundant mucosal Th17 cells, a deficit in the tolerogenic RORγt+ regulatory T (Treg) cell subset, and susceptibility to disease in colitis models. Transplanting healthy donor-derived microbiotas into mice colonized with human IBD microbiotas led to induction of RORγt+ Treg cells, which was associated with an increase in the density of the microbiotas following transplant. Microbiota transplant reduced gut Th17 cells in mice colonized with a microbiota from a donor with Crohn's disease. By culturing strains from this microbiota and screening them in vivo, we identified a specific strain that potently induces Th17 cells. Microbiota transplants reduced the relative abundance of this strain in the gut microbiota, which was correlated with a reduction in Th17 cells and protection from colitis.
Keyphrases
- induced apoptosis
- cell cycle arrest
- clinical trial
- high fat diet induced
- endothelial cells
- ulcerative colitis
- endoplasmic reticulum stress
- signaling pathway
- escherichia coli
- stem cells
- randomized controlled trial
- dendritic cells
- cell death
- metabolic syndrome
- bone marrow
- cell therapy
- regulatory t cells
- single cell
- induced pluripotent stem cells
- cell proliferation
- pluripotent stem cells