Abstract
OBJECTIVES: Biofilms are the dominant mode of bacterial life. The gut microbiota itself has characteristics of a biofilm that grows on the intestinal mucosa. C. difficile and VRE are commonly co-isolated from patients but biofilm formation has not been studied in a multi-species context. Here we study the interactions between C. difficile and VRE in surface adherent community. RESULTS: We found that VRE inhibits C. difficile biofilm formation in dual-species culture in the presence of excess glucose. Robust dual-species biofilms were produced when the carbon source was changed to a non-fermentable sugar such as fucose and xylose. We observed a high level of vancomycin tolerance in C. difficile biofilms that was not affected by the presence of VRE. Finally we also found that a nutrient step-change is sufficient to induce dispersion of single and dual-species biofilms. CONCLUSIONS: VRE can inhibit the development of C. difficile biofilms in the presence of a fermentable carbon source. VRE does not appear to affect vancomycin tolerance or nutrient-induced dispersion of C. difficile biofilms. HIGHLIGHTS: VRE inhibits C. difficile biofilm formation in the presence of fermentable glucose. Stable VRE - C. difficile biofilms are formed by managing the available carbon source. VRE does not affect C. difficile vancomycin tolerance in this model. A 10-fold increase in available nutrients is sufficient to induce biofilm dispersion in C. difficile and VRE.