Although strong evidence links the gut microbiome to metabolic disease, the mechanisms linking microbiota to hormonal and metabolic responses to food are not well understood. After a meal, gut bacteria produce a wide array of small molecule, protein, and lipid metabolites originating from bacterial sources. Attributing physiological function to select gut microbe-derived metabolites is critical to understanding diet-microbe-host interactions, and to developing microbiome-inspired therapies to improve human health. Here, we have investigated the role of a poorly annotated class of gut microbiome-derived lipids called N-acyl amides in postprandial metabolic physiology. Here, we show that both bacterial production and provision of exogenous N-acyl amides reorganize host hormone-driven metabolic transition after a meal. Moreover, N-acyl amides exert broad effects on the meal- and circadian-related reorganization of gene expression, metabolic hormones, and gut microbiome composition. Collectively, these results demonstrate that microbiota-derived N-acyl amides play a physiologic role in postprandial metabolic homeostasis in the host.
Keywords: circadian; hormone; lipid; metabolism; microbiome.