Wall of Resilience: How the Intestinal Epithelium Prevents Inflammatory Onslaught in the Gut

• Published in: Cellular and molecular gastroenterology and hepatology p. 101423
• Main Authors: Liebing, Eva, Krug, Susanne M., Neurath, Markus F., Siegmund, Britta, Becker, Christoph
• Format: Journal Article
• Language: English
• Published: United States Elsevier Inc 24.10.2024
• Subjects: barrier dysfunction; inflammatory bowel diseases; Intestinal epithelium; IDLR; inflammatory bowel diseases; PRRs; S1P2; IBD; IECs; UC; EECs; AMPs; ILCs; rISC; S1P; PtdSer; GCs; ISCs; bTJ; MUC; FADD; Intestinal epithelium; MSC; CD; IELs; PCs; GPX4; AhR; LSR; tTJ; barrier dysfunction; ER; ECM; CBCs; FAK; ZO-1; OMS; DISC; TJ; JAM; ROS; TAMP; SCFAs; TLRs
• ISSN: 2352-345X; 2352-345X
• DOI: 10.1016/j.jcmgh.2024.101423

The intestinal epithelium forms the boundary between the intestinal immune system in the lamina propria and the outside world, the intestinal lumen, which contains a diverse array of microbial and environmental antigens. Composed of specialized cells, this epithelial monolayer has an exceptional turnover rate. Differentiated epithelial cells are released into the intestinal lumen within a few days, at the villus tip, a process that requires strict regulation. Dysfunction of the epithelial barrier increases the intestinal permeability and paves the way for luminal antigens to pass into the intestinal serosa. Stem cells at the bottom of Lieberkühn's crypts provide a constant supply of mature epithelial cells. Differentiated IECs exhibit a diverse array of mechanisms that enable communication with surrounding cells, fortification against microorganisms, and orchestration of nutrient absorption and hormonal balance. Furthermore, tight junctions regulate paracellular permeability properties, and their disruption can lead to an impairment of the intestinal barrier, allowing inflammation to develop or further progress. IECs provide a communication platform through which they maintain homeostasis with a spectrum of entities including immune cells, neuronal cells and connective tissue cells. This homeostasis can be disrupted in disease, such as inflammatory bowel disease (IBD). Patients suffering from IBD show an impaired gut barrier, dysregulated cellular communication, and aberrant proliferation and demise of cells. This review summarizes the individual cellular and molecular mechanisms pivotal for upholding the integrity of the intestinal epithelial barrier and shows how these can be disrupted in diseases such as IBD.