AI Article Synopsis
- Multicellular organisms have adapted to have a closed gut, leading to a unique internal microbiome that differs from their environment.
- The study suggests that FOXA transcription factors in vertebrates help shape the gut microbiome by influencing the glycosylation of intestinal epithelial surfaces.
- Deleting FOXA genes results in significant changes to the gut microbial composition and can lead to inflammatory bowel disease, but these changes can be reversed through fecal transplants, highlighting the host's role in gut microbiome management.
Article Abstract
Evolutionary adaptation of multicellular organisms to a closed gut created an internal microbiome differing from that of the environment. Although the composition of the gut microbiome is impacted by diet and disease state, we hypothesized that vertebrates promote colonization by commensal bacteria through shaping of the apical surface of the intestinal epithelium. Here, we determine that the evolutionarily ancient FOXA transcription factors control the composition of the gut microbiome by establishing favorable glycosylation on the colonic epithelial surface. FOXA proteins bind to regulatory elements of a network of glycosylation enzymes, which become deregulated when Foxa1 and Foxa2 are deleted from the intestinal epithelium. As a direct consequence, microbial composition shifts dramatically, and spontaneous inflammatory bowel disease ensues. Microbiome dysbiosis was quickly reversed upon fecal transplant into wild-type mice, establishing a dominant role for the host epithelium, in part mediated by FOXA factors, in controlling symbiosis in the vertebrate holobiont.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11338728 | PMC |
| http://dx.doi.org/10.1016/j.devcel.2024.05.006 | DOI Listing |
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