1. Aberrant branched‐chain amino acid accumulation along the microbiota–gut–brain axis: Crucial targets affecting the occurrence and treatment of ischaemic stroke.
- Author
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Shen, Jiajia, Guo, Huimin, Liu, Shijia, Jin, Wei, Zhang, Zhi‐Wei, Zhang, Yong, Liu, Keanqi, Mao, Shuying, Zhou, Zhihao, Xie, Lin, Wang, Guangji, Hao, Haiping, and Liang, Yan
- Subjects
ISCHEMIC stroke ,LACTOBACILLUS brevis ,GUT microbiome ,AMINO acids ,STROKE patients ,METABOLOMICS - Abstract
Background and Purpose: Although increasing evidence illustrated that the bidirectional communication between the brain and the gut is closely related to the occurrence of various complex diseases. Limited effort has been made to explore the influence of intestinal flora on the risk of ischaemic stroke. The present study aims to identify microbiota and specialized microbiota metabolites related to the occurrence and treatment of ischaemic stroke. Experimental Approach: The role of microbiota in the occurrence and the treatment of ischaemic stroke was evaluated on ischaemia/reperfusion (I/R), pseudo‐germ‐free and faecal transplantation animals. The target microbiota and specialized metabolites were identified by comparing their distribution in flora and metabolomic profiles in ischaemic stroke patients and animals with compared with healthy controls. The effects and mechanisms involved of the targeted metabolites in ischaemic stroke were explored in ischaemia/reperfusion rats, hypoxia/reoxygenation PC12 cells and LPS‐induced inflammatory BV2 cells. Key Results: Both ischaemic stroke patients and I/R rats had significant accumulation of branched‐chain amino acids, which were closely associated with gut microflora dysbiosis and the development of ischaemic stroke. Lactobacillus helveticus (L.hel) and Lactobacillus brevis (L.bre) are identified as the microbiota most affected by ischaemia/reperfusion modelling and treatment. L.hel and L.bre colonization exhibited significant neuroprotective activity and could greatly alleviate the accumulation of branched‐chain amino acids. In addition, branched‐chain amino acid (BCAA) accumulation was shown to exacerbate microglia‐induced neuroinflammation by activating AKT/STAT3/NF‐κB signalling. Conclusion and Implications: Our findings demonstrated the crucial role of intestinal flora and microbiota metabolites in the occurrence and treatment of ischaemic stroke. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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