心理压力诱导的微生物代谢物吲哚-3-乙酸酯会扰乱肠细胞系的形成。

Cell metabolism Pub Date : 2024-03-05 Epub Date: 2024-01-23 DOI:10.1016/j.cmet.2023.12.026
Wei Wei, Yali Liu, Yuanlong Hou, Shuqi Cao, Zhuo Chen, Youying Zhang, Xiaoying Cai, Qingyuan Yan, Ziguang Li, Yonggui Yuan, Guangji Wang, Xiao Zheng, Haiping Hao
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引用次数: 0

摘要

大脑和肠道错综复杂地联系在一起,并对各种刺激做出反应。压力引起的脑肠交流与肠道疾病的发病和复发有关。将心理压力传递给肠道上皮细胞并导致其适应不良的机制仍然鲜为人知。在这里,我们描述了一种损害肠干细胞(ISC)血统承诺的压力反应性大脑-肠道代谢轴。心理压力触发的交感神经输出使肠道共生乳酸杆菌(Lactobacillus murinus)富集,增加了吲哚-3-乙酸酯(IAA)的产生,导致肠道分泌细胞的转移性损失。细菌 IAA 破坏了 ISC 线粒体的生物能,从而以细胞内在的方式阻止了分泌系的形成。口服α-酮戊二酸补充剂能促进ISC分化,并赋予其对应激触发的肠上皮损伤的复原力。我们证实,精神痛苦患者粪便中的IAA含量较高,并且与肠道功能紊乱相关。这些发现揭示了一种微生物介导的大脑-肠道通路,可用于治疗压力驱动的肠道-大脑合并症。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Psychological stress-induced microbial metabolite indole-3-acetate disrupts intestinal cell lineage commitment.

Psychological stress-induced microbial metabolite indole-3-acetate disrupts intestinal cell lineage commitment.

The brain and gut are intricately connected and respond to various stimuli. Stress-induced brain-gut communication is implicated in the pathogenesis and relapse of gut disorders. The mechanism that relays psychological stress to the intestinal epithelium, resulting in maladaptation, remains poorly understood. Here, we describe a stress-responsive brain-to-gut metabolic axis that impairs intestinal stem cell (ISC) lineage commitment. Psychological stress-triggered sympathetic output enriches gut commensal Lactobacillus murinus, increasing the production of indole-3-acetate (IAA), which contributes to a transferrable loss of intestinal secretory cells. Bacterial IAA disrupts ISC mitochondrial bioenergetics and thereby prevents secretory lineage commitment in a cell-intrinsic manner. Oral α-ketoglutarate supplementation bolsters ISC differentiation and confers resilience to stress-triggered intestinal epithelial injury. We confirm that fecal IAA is higher in patients with mental distress and is correlated with gut dysfunction. These findings uncover a microbe-mediated brain-gut pathway that could be therapeutically targeted for stress-driven gut-brain comorbidities.

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