Gut flora-derived succinate exacerbates Allergic Airway Inflammation by promoting protein succinylation

琥珀酰化 炎症 菌群(微生物学) 过敏性炎症 气道 免疫学 微生物学 细胞生物学 生物 化学 医学 细菌 生物化学 赖氨酸 氨基酸 遗传学 外科
作者
Chao Wang,Xin Yu,Yu Xiao,Hui Xiao,Yang Song,Xinlei Wang,Haoyu Zheng,Kai Chen,Yiming An,Zhengjie Zhou,Xiaoping Guo,Fang Wang
出处
期刊:Redox biology [Elsevier BV]
卷期号:82: 103623-103623 被引量:5
标识
DOI:10.1016/j.redox.2025.103623
摘要

Allergic airway inflammation (AAI) is a prevalent respiratory disorder that affects a vast number of individuals globally. There exists a complex interplay among inflammation, immune responses, and metabolic processes, which is of paramount importance in the pathogenesis of AAI. Metabolic dysregulation and protein translational modification (PTM) are well-recognized hallmarks of diseases, playing pivotal roles in the onset and progression of numerous ailments. However, the role of gut microbiota metabolites in the development of AAI, as well as their influence on PTM modifications within this disease context, have not been thoroughly explored and investigated thus far. In AAI patients, succinate was identified as a key metabolite, positively correlated with certain immune parameters and IgE levels, and having good diagnostic value. In AAI mice, gut bacteria were the main source of high succinate levels. Mendelian randomization showed succinate as a risk factor for asthma. Exogenous succinate worsened AAI in mice, increasing airway resistance and inflammatory factor levels. Protein succinylation in AAI mice lungs differed significantly from normal mice, with up-regulated proteins in metabolic pathways. FMT alleviated AAI symptoms by reducing succinate and protein succinylation levels. In vitro, succinate promoted protein succinylation in BEAS-2B cells, and SOD2 was identified as a key succinylated protein, with the K68 site crucial for its modification and enzyme activity regulation. Gut flora-derived succinate exacerbates AAI in mice by increasing lung protein succinylation, and FMT can reverse this. These findings offer new insights into AAI mechanisms and potential therapeutic targets.
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