Probiotics may represent a promising approach for reducing Clostridioides (Clostridium) difficile infections (CDIs). A clinical trial conducted by our group demonstrated that CDI patients undergoing adjunctive treatment with Lactobacillus and Bifidobacterium probiotics had a reduction in diarrheal duration and compositional changes in their stool microbiomes. Here, we modified a CDI mouse model to represent clinical outcomes observed in patients and employed this model to identify evidence for the prevention of primary CDI and relapse with the same probiotic. Mice (n = 80) were administered 0.25 mg/ml cefoperazone over 5 days and subsequently challenged with 102C. difficile VPI 10463 spores. A subset of mice (n = 40) were administered 108 CFU of probiotics daily alongside cefoperazone pretreatment and until experimental endpoints were reached. Clinical scoring was performed daily on mice and used to evaluate CDI onset and severity. Moderate CDI in mice was defined by survival beyond day 3 postinfection, while mice with severe CDI were those who succumbed to infection prior to day 3 postinfection. Sequencing and analysis of 16S rRNA from stool content were performed to determine compositional alterations to the microbiota. Using total clinical scores, we identified an association between probiotic treatment and delayed onset of primary CDI and relapse by approximately 12 to 24 h (P < 0.001). The stool microbiome of mice with moderate CDI receiving probiotic treatment was significantly enriched with Lachnospiraceae during primary CDI (P < 0.05). The outcomes observed present an opportunity to use this modified CDI mouse model to examine the efficacy of nonantibiotic options for CDI management.
Keywords: CDI; Lactobacillus; antibiotics; gastrointestinal; microbiome; preventative medicine.
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