The role of Kupffer cells in microbiota-brain communication: Sleep and fever signaling in response to lipopolysaccharide

Abstract

Microbial molecules translocated from the intestinal lumen into the host’s internal environment play a role in various physiological functions. Previously, we identified that butyrate, a short-chain fatty acid produced by intestinal bacteria, lipoteichoic acid, a cell wall component of gram-positive bacteria, and lipopolysaccharide (LPS), a cell wall component of gram-negative bacteria, induce sleep when their naturally occurring translocation is mimicked by direct delivery into the portal vein. Our findings suggested that these microbial molecules exert their sleep-promoting effects within the hepatoportal region. In the present experiments, we tested the hypothesis that resident liver macrophages, known as Kupffer cells, play a crucial role in the LPS-responsive, sleep-promoting mechanisms within the hepatoportal region. Intraportal administration of LPS induced increased sleep and fever in control rats. Remarkably, in Kupffer cell-depleted animals, both of these responses were significantly suppressed. These findings highlight the potential role of Kupffer cells in mediating the non-rapid-eye movement sleep-promoting and febrile effects of LPS translocated from the intestinal microbiota into the portal circulation. The strategic location of Kupffer cells within the hepatoportal region, coupled with their ability to rapidly take up LPS and other microbial molecules, together with their high secretory activity of multiple signaling molecules, underlie their key role in the communication between the intestinal microbiota and the brain.