Abstract
Abstract
Objective Impaired clock genes expression has been observed in biopsy samples from patients with inflammatory bowel disease (IBD). Disruption of circadian rhythms, which occurs in shift workers, has been linked to an increased risk of gastrointestinal diseases, including IBD. The intestinal clock balances gastrointestinal homeostasis by regulating the microbiome. Here we characterize intestinal immune functions in mice lacking the intestinal clock and IBD-relevant mouse model under different feeding conditions to describe the functional impact of the intestinal clock in the development of gastrointestinal inflammation.
Design Tissues and fecal samples from intestinal clock-deficient mice (Bmal1IEC-/-) and mouse models for colitis (IL-10-/-, Bmal1IEC-/-xIL-10-/-, dextran sulfate sodium (DSS) administration) under ad libitum and restricted feeding (RF) conditions were used to determine the causal role of the intestinal clock for colitis.
Results In IL-10-/- mice, inflammation correlated with disrupted colon clock genes expression. Genetic loss of intestinal clock functions promoted DSS and IBD inflammatory phenotypes and dramatically reduces survival, and colonization with disease-associated microbiota in germ- free Bmal1IEC-/- hosts increased their inflammatory responses, demonstrating the causal role of colonic clock disruption and the severity of IBD. RF in IL-10-/- mice restored the colon clock and related immune functions, improved the inflammatory responses and rescued the histopathological phenotype. In contrast, RF failed to improve IBD symptoms in Bmal1IEC-/- xIL-10-/- demonstrating the significance of the colonic clock to gate the effect of RF.
Conclusion We provide evidence that inflammation-associated intestinal clock dysfunction triggers host immune imbalance and promotes the development and progression of IBD-like colitis. Enhancing intestinal clock function by RF modulates the pathogenesis of IBD and thus could become a novel strategy to ameliorate the symptoms in IBD patients.
Competing Interest Statement
The authors have declared no competing interest.