Trained immunity of intestinal tuft cells during infancy enhances host defense against enteroviral infections in mice.

IF 9 1区 医学 Q1 MEDICINE, RESEARCH & EXPERIMENTAL EMBO Molecular Medicine Pub Date : 2024-09-11 DOI:10.1038/s44321-024-00128-9
Deyan Chen,Jing Wu,Fang Zhang,Ruining Lyu,Qiao You,Yajie Qian,Yurong Cai,Xiaoyan Tian,Hongji Tao,Yating He,Waqas Nawaz,Zhiwei Wu
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Abstract

Innate immune cells have been acknowledged as trainable in recent years. While intestinal tuft cells are recognized for their crucial roles in the host defense against intestinal pathogens, there remains uncertainty regarding their trainability. Enterovirus 71 (EV71), a prevalent enterovirus that primarily infects children but rarely infects adults. At present, there is a significant expansion of intestinal tuft cells in the EV71-infected mouse model, which is associated with EV71-induced interleukin-25 (IL-25) production. Further, we found that IL-25 pre-treatment at 2 weeks old mouse enabled tuft cells to acquire immune memory. This was evidenced by the rapid expansion and stronger response of IL-25-trained tuft cells in response to EV71 infection at 6 weeks old, surpassing the reactivity of naïve tuft cells in mice without IL-25-trained progress. Interestingly, IL-25-trained intestinal tuft cells exhibit anti-enteroviral effect via producing a higher level of IL-25. Mechanically, IL-25 treatment upregulates spermidine/spermine acetyl-transferase enzyme (SAT1) expression, mediates intracellular polyamine deficiency, further inhibits enterovirus replication. In summary, tuft cells can be trained by IL-25, which supports faster and higher level IL-25 production in response to EV71 infection and further exhibits anti-enteroviral effect via SAT1-mediated intracellular polyamine deficiency. Given that IL-25 can be induced by multiple gut microbes during human growth and development, including shifts in gut flora abundance, which may partially explain the different susceptibility to enteroviral infections between adults and children.
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婴儿期肠簇细胞的免疫训练可增强小鼠宿主对肠道病毒感染的防御能力。
近年来,先天性免疫细胞被认为是可以训练的。虽然肠套叠细胞在宿主防御肠道病原体的过程中发挥着至关重要的作用,但其可训练性仍存在不确定性。肠道病毒 71(EV71)是一种流行的肠道病毒,主要感染儿童,但很少感染成人。目前,在 EV71 感染的小鼠模型中,肠绒毛细胞显著扩张,这与 EV71 诱导的白细胞介素-25(IL-25)分泌有关。此外,我们还发现,在小鼠2周大时进行IL-25预处理可使肠套叠细胞获得免疫记忆。经过IL-25训练的簇细胞在6周大时对EV71感染的反应迅速扩大且反应更强,超过了没有经过IL-25训练的小鼠幼稚簇细胞的反应性,这就是证明。有趣的是,经过IL-25训练的肠绒毛细胞通过产生更高水平的IL-25表现出抗肠病毒作用。从机理上讲,IL-25处理可上调精胺/精胺乙酰转移酶(SAT1)的表达,介导细胞内多胺的缺乏,进一步抑制肠道病毒的复制。总之,IL-25可训练丛细胞,使其在应对EV71感染时产生更快、更高水平的IL-25,并通过SAT1介导的细胞内多胺缺乏进一步发挥抗肠病毒作用。鉴于IL-25可在人体生长发育过程中由多种肠道微生物诱导,包括肠道菌群丰度的变化,这可能部分解释了成人和儿童对肠道病毒感染的易感性不同。
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来源期刊
EMBO Molecular Medicine
EMBO Molecular Medicine 医学-医学:研究与实验
CiteScore
17.70
自引率
0.90%
发文量
105
审稿时长
4-8 weeks
期刊介绍: EMBO Molecular Medicine is an open access journal in the field of experimental medicine, dedicated to science at the interface between clinical research and basic life sciences. In addition to human data, we welcome original studies performed in cells and/or animals provided they demonstrate human disease relevance. To enhance and better specify our commitment to precision medicine, we have expanded the scope of EMM and call for contributions in the following fields: Environmental health and medicine, in particular studies in the field of environmental medicine in its functional and mechanistic aspects (exposome studies, toxicology, biomarkers, modeling, and intervention). Clinical studies and case reports - Human clinical studies providing decisive clues how to control a given disease (epidemiological, pathophysiological, therapeutic, and vaccine studies). Case reports supporting hypothesis-driven research on the disease. Biomedical technologies - Studies that present innovative materials, tools, devices, and technologies with direct translational potential and applicability (imaging technologies, drug delivery systems, tissue engineering, and AI)
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