Abstract
Alterations in the gut microbiota, known as gut dysbiosis, are associated with inflammatory bowel disease (IBD). There is a need for model systems that can recapitulate the IBD gut microbiome to better understand the mechanistic impact of differences in microbiota composition and its functional consequences in a controlled laboratory setting. To this end, we introduced fecal samples from patients with Crohn's disease (CD) and ulcerative colitis (UC), as well as from healthy control subjects, to miniature bioreactor arrays (MBRAs) and analyzed the microbial communities over time. We then performed two functional assessments. First, we evaluated the colitogenic potential of the CD microbiotas in genetically susceptible germ-free IL-10-deficient mice and found that colitogenic capacity was preserved in a bioreactor-cultivated CD microbiota. Second, we tested impaired colonization resistance against Clostridioides difficile in UC microbiotas using the MBRA system and found that UC microbiotas were innately susceptible to C. difficile colonization while healthy microbiotas were resistant, consistent with what is seen clinically. Overall, our results demonstrate that IBD microbiotas perform comparably to healthy donor microbiotas in the MBRA system, successfully recapitulating microbial structure while preserving IBD-specific functional characteristics. These findings establish a foundation for further mechanistic research into the IBD microbiota using MBRAs.