Dontamsetti Kiran Devi, Pedrosa-Suarez Laura Camila, Aktar Rubina, Peiris Madusha
Centre for Neuroscience, Surgery & Trauma, Blizard Institute, Barts and The London School of Medicine and Dentistry Queen Mary University of London London UK.
JGH Open. 2024 May 22;8(5):e13083. doi: 10.1002/jgh3.13083. eCollection 2024 May.
The luminal environment is rich in macronutrients coming from our diet and resident microbial populations including their metabolites. Together, they have the capacity to modulate unique cell surface receptors, known as G-protein coupled receptors (GPCRs). Along the entire length of the gut epithelium, enteroendocrine cells express GPCRs to interact with luminal contents, such as GPR93 and the calcium sensing receptor to sense proteins, FFA2 and GPR84 to sense fatty acids, and SGLT1 and T1R to sense carbohydrates. Nutrient-receptor interaction causes the release of hormonal stores such as glucagon-like peptide 1, peptide YY, and cholecystokinin, which further regulate gut function. Existing data show the role of luminal components and microbial fermentation products on gut function. However, there is a lack of understanding in the mechanistic interactions between diet-derived luminal components and microbial products and nutrient-sensing receptors and downstream gastrointestinal modulation. This review summarizes current knowledge on various luminal components and describes in detail the range of nutrients and metabolites and their interaction with nutrient receptors in the gut epithelium and the emerging impact on immune cells.
管腔环境富含来自我们饮食的大量营养素以及包括其代谢产物在内的常驻微生物群。它们共同具有调节独特细胞表面受体的能力,这些受体被称为G蛋白偶联受体(GPCRs)。在肠道上皮的整个长度上,肠内分泌细胞表达GPCRs以与管腔内容物相互作用,例如GPR93和钙敏感受体以感知蛋白质,FFA2和GPR84以感知脂肪酸,以及SGLT1和T1R以感知碳水化合物。营养物质与受体的相互作用会导致激素储存的释放,如胰高血糖素样肽1、肽YY和胆囊收缩素,这些激素会进一步调节肠道功能。现有数据显示了管腔成分和微生物发酵产物对肠道功能的作用。然而,对于饮食来源的管腔成分与微生物产物以及营养物质感应受体与下游胃肠道调节之间的机制性相互作用,我们还缺乏了解。这篇综述总结了关于各种管腔成分的现有知识,并详细描述了营养物质和代谢产物的范围,以及它们与肠道上皮中的营养物质受体的相互作用,以及对免疫细胞的新影响。
