Spatial organization of a model 15-member human gut microbiota established in gnotobiotic mice

Jessica L. Mark Welch, Yuko Hasegawa, Nathan P. McNulty, Jeffrey I. Gordon, and Gary G. Borisy: Proceedings of the National Academy of Sciences of the United States of America, Volume 114, Issue 43, 24 October 2017, Pages E9105-E9114 Read More


Knowledge of the spatial organization of the gut microbiota is important for understanding the physical andmolecular interactions among its members. These interactions are thought to influence microbial succession, community stability, syntrophic relationships, and resiliency in the face of perturbations. The complexity and dynamism of the gut microbiota pose considerable challenges for quantitative analysis of its spatial organization. Here, we illustrate an approach for addressing this challenge, using (i) a model, defined 15-member consortium of phylogenetically diverse, sequenced human gut bacterial strains introduced into adult gnotobiotic mice fed a polysaccharide-rich diet, and (ii) in situ hybridization and spectral imaging analysis methods that allow simultaneous detection of multiple bacterial strains at multiple spatial scales. Differences in the binding affinities of strains for substrates such as mucus or food particles, combined with more rapid replication in a preferred microhabitat, could, in principle, lead to localized clonally expanded aggregates composed of one or a few taxa. However, our results reveal a colonic community that is mixed at micrometer scales, with distinct spatial distributions of some taxa relative to one another, notably at the border between the mucosa and the lumen. Our data suggest that lumen and mucosa in the proximal colon should be conceptualized not as stratified compartments but as components of an incompletely mixed bioreactor. Employing the experimental approaches described should allow direct tests of whether and how specified host and microbial factors influence the nature and functional contributions of “microscale” mixing to the dynamic operations of the microbiota in health and disease.
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Posted on November 8, 2017
Posted in: Neurogenetics & Transcriptomics, Publications Authors: