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Computational Insights into Colonic Motility: Mechanical Role of Mucus in Homeostasis and Inflammation

粘液 炎症 运动性 平衡 生物 细胞生物学 免疫学 生态学
作者
I.H. Erbay,Alessio Alexiadis,Yury Rochev
出处
期刊:Computers in Biology and Medicine [Elsevier]
卷期号:: 108540-108540
标识
DOI:10.1016/j.compbiomed.2024.108540
摘要

Colonic motility plays a vital role in maintaining proper digestive function. The rhythmic contractions and relaxations facilitate various types of motor functions that generate both propulsive and non-propulsive motility modes which in turn generate shear stresses on the epithelial surface. However, the interplay between colonic mucus, shear stress, and epithelium remains poorly characterized. Here, we present a colonic computational model that describes the potential roles of mucus and shear stress in both homeostasis and ulcerative colitis (UC). Our model integrates several key features, including the properties of the mucus bilayer and faeces, intraluminal pressure, and crypt characteristics to predict the time-space mosaic of shear stress. We show that the mucus thickness which could vary based on the severity of UC, may significantly reduce the amount of shear stress applied to the colonic crypts and effect faecal velocity. Our model also reveals an important spatial shear stress variance in homeostatic colonic crypts that suggests shear stress may have a modulatory role in epithelial cell migration, differentiation, apoptosis, and immune surveillance. Together, our study uncovers the rather neglected roles of mucus and shear stress in intestinal cellular processes during homeostasis and inflammation.
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