饮食、微生物组和代谢物的对立机制调节易感基因宿主的炎症性肠病。

Cell host & microbe Pub Date : 2024-04-10 Epub Date: 2024-03-20 DOI:10.1016/j.chom.2024.03.001
Gabriel Vasconcelos Pereira, Marie Boudaud, Mathis Wolter, Celeste Alexander, Alessandro De Sciscio, Erica T Grant, Bruno Caetano Trindade, Nicholas A Pudlo, Shaleni Singh, Austin Campbell, Mengrou Shan, Li Zhang, Qinnan Yang, Stéphanie Willieme, Kwi Kim, Trisha Denike-Duval, Jaime Fuentes, André Bleich, Thomas M Schmidt, Lucy Kennedy, Costas A Lyssiotis, Grace Y Chen, Kathryn A Eaton, Mahesh S Desai, Eric C Martens
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摘要

炎症性肠病(IBD)是以自发性肠道炎症为特征的慢性疾病,在工业化人口中发病率不断上升。饮食和肠道细菌与宿主遗传学相结合,被认为是导致 IBD 的主要原因,但其机理仍在研究之中。在缺乏 IBD 相关细胞因子(白细胞介素-10)的小鼠身上,我们发现,缺乏纤维的肠道微生物群会促进结肠粘液的恶化,导致致命的结肠炎。炎症始于自然杀伤细胞的扩张和某些细菌免疫球蛋白-A包膜的改变。然后,致命性结肠炎由 Th1 免疫反应驱动,Th1 免疫反应增加了粘蛋白降解细菌的活性,首先在粘液较稀薄的区域引起炎症。不含纤维的纯肠内营养饮食也会诱发粘液侵蚀,但会通过同时增加抗炎细菌代谢产物异丁酸来抑制炎症。我们的发现强调了关注微生物功能--而不是导致肠道疾病的类群--的重要性,而且一些饮食介导的功能可以对抗那些促进疾病的功能。
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Opposing diet, microbiome, and metabolite mechanisms regulate inflammatory bowel disease in a genetically susceptible host.

Inflammatory bowel diseases (IBDs) are chronic conditions characterized by periods of spontaneous intestinal inflammation and are increasing in industrialized populations. Combined with host genetics, diet and gut bacteria are thought to contribute prominently to IBDs, but mechanisms are still emerging. In mice lacking the IBD-associated cytokine, interleukin-10, we show that a fiber-deprived gut microbiota promotes the deterioration of colonic mucus, leading to lethal colitis. Inflammation starts with the expansion of natural killer cells and altered immunoglobulin-A coating of some bacteria. Lethal colitis is then driven by Th1 immune responses to increased activities of mucin-degrading bacteria that cause inflammation first in regions with thinner mucus. A fiber-free exclusive enteral nutrition diet also induces mucus erosion but inhibits inflammation by simultaneously increasing an anti-inflammatory bacterial metabolite, isobutyrate. Our findings underscore the importance of focusing on microbial functions-not taxa-contributing to IBDs and that some diet-mediated functions can oppose those that promote disease.

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