bmj.com | Objectives
Dysbiosis of the intestinal microbiota is associated with Crohn's
disease (CD). Functional evidence for a causal role of
bacteria in the development of
chronic small intestinal inflammation is lacking. Similar to human
pathology, TNFdeltaARE mice develop a tumour necrosis factor (TNF)-driven CD-like transmural inflammation with predominant ileal involvement.
Design Heterozygous TNFdeltaARE
mice and wildtype (WT) littermates were housed under conventional
(CONV), specific pathogen-free (SPF) and germ-free (GF)
conditions. Microbial communities
were analysed by high-throughput 16S ribosomal RNA gene sequencing.
Metaproteomes were measured
using LC-MS. Temporal and spatial
resolution of disease development was followed after antibiotic
treatment and transfer of
microbial communities into GF mice.
Granulocyte infiltration and Paneth cell function was assessed by
immunofluorescence and
gene expression analysis.
Results GF-TNFdeltaARE mice were free of inflammation in the gut and antibiotic treatment of CONV-TNFdeltaARE mice attenuated ileitis but not colitis, demonstrating that disease severity and location are microbiota-dependent. SPF-TNFdeltaARE
mice developed distinct ileitis-phenotypes associated with gradual loss
of antimicrobial defence. 16S analysis and metaproteomics
revealed specific compositional and
functional alterations of bacterial communities in inflamed mice.
Transplantation of disease-associated
but not healthy microbiota
transmitted CD-like ileitis to GF-TNFdeltaARE recipients and triggered loss of lysozyme and cryptdin-2 expression. Monoassociation of GF-TNFdeltaARE mice with the human CD-related Escherichia coli LF82 did not induce ileitis.
Conclusions We provide clear experimental evidence for the causal role of gut bacterial dysbiosis in the development of chronic ileal
inflammation with subsequent failure of Paneth cell function.
Butt then we told you this five years ago....,
Butt then we told you this five years ago....,
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