Objectives: People who are critically ill have high rates of endotoxemia that can significantly decrease bile flow and increase bile cytokines, the latter of which might worsen their condition. Bile acids are nutrient-signaling hormones that have a significant impact on gut barrier function and motility, and the gut is considered the origin of systemic inflammation. Therefore, healthy exogenous bile could be a promising gut nutrient for critical illness, so the biomedical role of bile in endotoxemia was investigated in this study.
Methods: Twelve rats were injected with lipopolysaccharide (LPS) and randomized into a group with sham operation) and a group with bile external drainage (n = 6 for each group); six rats with sham operation served as the control group. In addition, interleukin-6 (IL-6) knockout mice and macrophages were treated with LPS.
Results: Compared to the control animals, the group with LPS injection and sham operation had significantly increased levels of gut permeability, gut bacterial translocation, gut mucosal tumor necrosis factor α, IL-6 transcripts, and serum tumor necrosis factor α and IL-6. Compared to group with sham operation and LPS injection, bile external drainage (in LPS-challenged rats) increased gut bacterial translocation by 10 times, and this detrimental effect was associated with prolonged intestinal transit time, increased serum IL-6 concentration, and up-regulated gut mucosal IL-6 transcripts. Moreover, bile selectively inhibited LPS-stimulated macrophages in IL-6 release, which can activate gastrointestinal submucosal neurons to promote motility. Knocking out IL-6 significantly reduced gut bacterial translocation in endotoxemic mice.
Conclusions: Bile is a promising gut nutrient that inhibits gut bacterial translocation and promotes gut motility via an IL-6-related pathway in experimental endotoxemia.
Keywords: Bacterial translocation; Bile; Gut motility; IL-6; Nutrient.
Copyright © 2020 The Author(s). Published by Elsevier Inc. All rights reserved.