A healthy, intact gut microbiota is often resistant to colonization by gastrointestinal pathogens. During periods of dysbiosis, however, organisms such as Clostridioides difficile can thrive. We describe an optimized in vitro colonization resistance assay for C. difficile in stool (CRACS) and demonstrate the utility of this assay by assessing changes in colonization resistance following antibiotic exposure. Fecal samples were obtained from healthy volunteers (n = 6) and from healthy subjects receiving 5 days of moxifloxacin (n = 11) or no antibiotics (n = 10). Samples were separated and either not manipulated (raw) or sterilized (autoclaved or filtered) prior to inoculation with C. difficile ribotype 027 spores and anaerobic incubation for 72 h. Different methods of storing fecal samples were also investigated in order to optimize the CRACS. In healthy, raw fecal samples, incubation with spores did not lead to increased C. difficile total viable counts (TVCs) or cytotoxin detection. In contrast, increased C. difficile TVCs and cytotoxin detection occurred in sterilized healthy fecal samples or those from antibiotic-treated individuals. The CRACS was functional with fecal samples stored at either 4°C or -80°C but not with those stored with glycerol (12% or 30% [vol/vol]). Our data show that the CRACS successfully models in vitro the loss of colonization resistance and subsequent C. difficile proliferation and toxin production. The CRACS could be used as a proxy for C. difficile infection in clinical studies or to determine if an individual is at risk of developing C. difficile infection or other potential infections occurring due to a loss of colonization resistance.
Keywords: Clostridioides difficile; antibiotics; colonization resistance; dysbiosis.
Copyright © 2020 American Society for Microbiology.