Variation in spatial organization of the gut microbiota along the longitudinal and transverse axes of the intestines.

Elucidation of the mechanisms by which the microbiota-gut-brain axis influences behavior requires understanding the anatomical relationship of bacteria with mucosal elements. We herein report that microbes were mainly associated with food or fecal matter in the intestinal lumen. In the small intestine, bacterial density increased from proximal-to-distal levels and was much higher in the large intestine. A mucus layer was present between the mucosal epithelium and fecal boluses in the large intestine, but not between food and the mucosal epithelium in the small intestine. In contrast, in all intestinal regions lacking food or fecal boluses, the lumen was small, or absent, and contained little or no bacteria or mucus. The association of bacteria with food was tested in the small intestine by examining the effect of fasting on it. Bacterial density was equivalent in the ileum of fasted and fed mice, but fasting greatly reduced the amount of food containing bacteria, suggesting the amount of bacteria was reduced. Critically, this study provides evidence that the vast majority of the microbiota in the intestines are associated with the food matrix thereby raising questions regarding how the gut microbiota can potentially signal the brain and influence behavior. Given their spatial location within the lumen, which keeps them at a great distance from neuronal elements in the mucosa, combined with immune and mucus barriers, microbiota more likely to influence behavior through secretion of bacterial products that can traverse the spatial difference to interact with gut neurons and not through direct physical association.