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Fusobacterium nucleatum Adheres to Clostridioides difficile via the RadD Adhesin to Enhance Biofilm Formation in Intestinal Mucus
- Engevik, Melinda A;
- Danhof, Heather A;
- Auchtung, Jennifer;
- Endres, Bradley T;
- Ruan, Wenly;
- Bassères, Eugénie;
- Engevik, Amy C;
- Wu, Qinglong;
- Nicholson, Maribeth;
- Luna, Ruth Ann;
- Garey, Kevin W;
- Crawford, Sue E;
- Estes, Mary K;
- Lux, Renate;
- Yacyshyn, Mary Beth;
- Yacyshyn, Bruce;
- Savidge, Tor;
- Britton, Robert A;
- Versalovic, James
- et al.
Published Web Location
https://doi.org/10.1053/j.gastro.2020.11.034Abstract
Background & aims
Although Clostridioides difficile infection (CDI) is known to involve the disruption of the gut microbiota, little is understood regarding how mucus-associated microbes interact with C difficile. We hypothesized that select mucus-associated bacteria would promote C difficile colonization and biofilm formation.Methods
To create a model of the human intestinal mucus layer and gut microbiota, we used bioreactors inoculated with healthy human feces, treated with clindamycin and infected with C difficile with the addition of human MUC2-coated coverslips.Results
C difficile was found to colonize and form biofilms on MUC2-coated coverslips, and 16S rRNA sequencing showed a unique biofilm profile with substantial cocolonization with Fusobacterium species. Consistent with our bioreactor data, publicly available data sets and patient stool samples showed that a subset of patients with C difficile infection harbored high levels of Fusobacterium species. We observed colocalization of C difficile and F nucleatum in an aggregation assay using adult patients and stool of pediatric patients with inflammatory bowel disease and in tissue sections of patients with CDI. C difficile strains were found to coaggregate with F nucleatum subspecies in vitro; an effect that was inhibited by blocking or mutating the adhesin RadD on Fusobacterium and removal of flagella on C difficile. Aggregation was shown to be unique between F nucleatum and C difficile, because other gut commensals did not aggregate with C difficile. Addition of F nucleatum also enhanced C difficile biofilm formation and extracellular polysaccharide production.Conclusions
Collectively, these data show a unique interaction of between pathogenic C difficile and F nucleatum in the intestinal mucus layer.Many UC-authored scholarly publications are freely available on this site because of the UC's open access policies. Let us know how this access is important for you.
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