Abstract
Complex host-gut microbiota interaction is involved in the formation of a unique ecosystem in our body, the “gut ecosystem”. In order to understand the complex gut ecosystem, we propose integrated multi-omics approach, where multiple layers of unbiased cyclopedic analyses such as genomics, transcriptomics and metabolomics are combined. Applying this approach, we have revealed the mechanism that gut microbiota-derived acetate, a short-chain fatty acid, protects mice from enterohemorrhagic Escherichia coli O157-infectious death. We have also shown that butyrate produced by gut microbiota such as order Clostridiales promotes differentiation of regulatory T cells from naïve T cells in colonic lamina propria, through epigenetic modification. Epigenetic modification by butyrate also acts on colonic macrophages to confer anti-inflammatory phenotype by rendering them hyporesponsive to Toll-like receptor signaling. Short-chain fatty acids also signal via their G protein-coupled receptors. For example, it has been suggested that gut microbiota-derived short-chain fatty acids absorbed in the blood play a role in regulation of systemic inflammation by inducing apoptosis of neutrophils as well as chemotaxis of regulatory T cells.
