某种肠道细菌
败血症
生物
三肽
微生物学
肠杆菌科感染
医学
免疫学
生物化学
肽
肠杆菌科
大肠杆菌
基因
肠道菌群
作者
Shihao Xie,Jiaxin Li,Fengyuan Lyu,Qingming Xiong,Peng Gu,Yuqi Chen,Meiling Chen,Jingna Bao,Xianglong Zhang,Rongjuan Wei,Youpeng Deng,Hongzheng Wang,Zhenhua Zeng,Zhongqing Chen,Yongqiang Deng,Zhuoshi Lian,Jie Zhao,Wei Gong,Ye Chen,Ke‐Xuan Liu
出处
期刊:Gut
[BMJ]
日期:2023-08-08
卷期号:73 (1): 78-91
被引量:106
标识
DOI:10.1136/gutjnl-2023-329996
摘要
OBJECTIVE: (AKK) is recognised as a functional probiotic strain that exerts beneficial effects on the progression of many diseases; however, whether AKK participates in sepsis pathogenesis is still unclear. Here, we evaluated the potential contribution of AKK to lethal sepsis development. DESIGN: Relative abundance of gut microbial AKK in septic patients was evaluated. Cecal ligation and puncture (CLP) surgery and lipopolysaccharide (LPS) injection were employed to establish sepsis in mice. Non-targeted and targeted metabolomics analysis were used for metabolites analysis. RESULTS: We first found that the relative abundance of gut microbial AKK in septic patients was significantly reduced compared with that in non-septic controls. Live AKK supplementation, as well as supplementation with its culture supernatant, remarkably reduced sepsis-induced mortality in sepsis models. Metabolomics analysis and germ-free mouse validation experiments revealed that live AKK was able to generate a novel tripeptide Arg-Lys-His (RKH). RKH exerted protective effects against sepsis-induced death and organ damage. Furthermore, RKH markedly reduced sepsis-induced inflammatory cell activation and proinflammatory factor overproduction. A mechanistic study revealed that RKH could directly bind to Toll-like receptor 4 (TLR4) and block TLR4 signal transduction in immune cells. Finally, we validated the preventive effects of RKH against sepsis-induced systemic inflammation and organ damage in a piglet model. CONCLUSION: We revealed that a novel tripeptide, RKH, derived from live AKK, may act as a novel endogenous antagonist for TLR4. RKH may serve as a novel potential therapeutic approach to combat lethal sepsis after successfully translating its efficacy into clinical practice.
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