Guangdong Provincial Key Laboratory of Gastroenterology, Department of Gastroenterology, Nanfang Hospital, Southern Medical University, Guangzhou, Guangdong, China.
Department of Gastroenterology, The Second Affiliated Hospital of Guangzhou Medical University, Guangzhou 510260, Guangdong, China.
Int Immunopharmacol. 2024 Aug 20;137:112512. doi: 10.1016/j.intimp.2024.112512. Epub 2024 Jun 18.
This study aims to disclose how loss of fucosyltransferase 2 (Fut2) impacts intestinal inflammation through cGAS-STING pathway that is closely associated with gut microbiota, and which microbial metabolite improves colitis in Fut2 deficiency.
Chronic colitis was induced in intestinal epithelial Fut2 knock out mice (Fut2), whose intestinal inflammation and activity of cGAS-STING pathway were evaluated. 16S rRNA sequencing and metabolomics were performed using intestinal samples. 2-oxindole was used to treat RAW264.7 cells and Fut2 mice with colitis (Fut2-DSS) to investigate the effect of 2-oxindole on cGAS-STING response and intestinal inflammation.
Fut2 loss exacerbated chronic colitis in mice, manifested by declined body weight, reduced colon length, increased disease activity index (DAI) and more colon injury in Fut2-DSS mice compared with WT-DSS (wild type mice with colitis). Lack of Fut2 promoted activation of cGAS-STING pathway. Fut2 deficiency had a primary impact on colonic microbiota, as shown by alteration of microbial diversity and structure, as well as decreased Lactobacillus. Metabolic structure and tryptophan metabolism in colonic luminal microbiota were also influenced by Fut2 loss. Fut2 deficiency also led to decreased levels of aryl hydrocarbon receptor (AHR) and its ligand 2-oxindole derived from tryptophan metabolism. 2-oxindole compromised cGAS-STING response through activating AHR in macrophages, and protected against intestinal inflammation and overactive cGAS-STING pathway in Fut2-DSS mice.
Fut2 deficiency promotes cGAS-STING pathway through suppressing 2-oxindole-AHR axis, ultimately facilitating the susceptibility to chronic colitis.
本研究旨在揭示岩藻糖基转移酶 2(Fut2)缺失如何通过与肠道微生物群密切相关的 cGAS-STING 途径影响肠道炎症,以及哪种微生物代谢物能改善 Fut2 缺陷型结肠炎。
利用肠道上皮 Fut2 敲除小鼠(Fut2)诱导慢性结肠炎,评估其肠道炎症和 cGAS-STING 途径的活性。采用 16S rRNA 测序和代谢组学方法分析肠道样本。使用 2-氧吲哚处理 RAW264.7 细胞和 Fut2 结肠炎小鼠(Fut2-DSS),以研究 2-氧吲哚对 cGAS-STING 反应和肠道炎症的影响。
Fut2 缺失加剧了 Fut2-DSS 小鼠的慢性结肠炎,表现为 Fut2-DSS 小鼠体重下降、结肠缩短、疾病活动指数(DAI)升高和结肠损伤加重,与 WT-DSS(结肠炎野生型小鼠)相比。缺乏 Fut2 促进了 cGAS-STING 途径的激活。Fut2 缺失主要影响结肠微生物群,表现为微生物多样性和结构改变,以及乳酸杆菌减少。结肠腔微生物群的代谢结构和色氨酸代谢也受到 Fut2 缺失的影响。Fut2 缺失还导致芳香烃受体(AHR)及其来源于色氨酸代谢的配体 2-氧吲哚的水平降低。2-氧吲哚通过激活巨噬细胞中的 AHR 来损害 cGAS-STING 反应,并在 Fut2-DSS 小鼠中保护其免受肠道炎症和过度活跃的 cGAS-STING 途径的影响。
Fut2 缺失通过抑制 2-氧吲哚-AHR 轴促进 cGAS-STING 途径,最终促进慢性结肠炎的易感性。
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