Abstract

In light of the emerging importance of the gut microbiome in human health, there is a need to improve the colonization efficiency of therapeutic bacteria called probiotics. Despite their recognized potential, artificially administered bacteria exhibit poor colonization in the intestine, limiting their therapeutic efficacy. Addressing this challenge requires innovative strategies; however, reported examples are limited. In nature, including in the intestinal tract, bacteria live via biofilm formation. Recently, it has been reported that RNase I, a member of the RNase T2 family conserved among almost all species, including bacteria, inhibits biofilm formation in Escherichia coli. In this study, we focus on these results and investigate the relationship between high biofilm formation and intestinal attachment using a non-settling E. coli laboratory strain as a probiotic model. The intestinal colonization abilities were evaluated through a microfluidic device mimicking the intestinal tract and through oral administration to mice. The in vitro and in vivo experiments showed that the E. coli strain lacking RNase I exhibited remarkable stability in intestinal colonization. We investigated the observation of colonization using fluorescence in situ hybridization, and inoculated E. coli cells were aggregated with the gut microbiome in the cecum and colon. This study proposes a technique to improve the intestinal colonization of bacteria by simply manipulating a single gene disruption, and it is expected to contribute to future research on the colonization of useful bacteria.

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