Exploring the gut microbiota-hippocampus-metabolites axis dysregulation in sepsis mice

Fangqiang Song; Qinglun Li; Jiyao Cui; Jianhua Wang; Shuai Xiao; Bo Yu; Yanqi Sun; Wenke Song; Linlin Wu; Yongqin Zhou

doi:10.3389/fmicb.2024.1302907

Frontiers in Microbiology (May 2024)

Exploring the gut microbiota-hippocampus-metabolites axis dysregulation in sepsis mice

Fangqiang Song,
Qinglun Li,
Jiyao Cui,
Jianhua Wang,
Shuai Xiao,
Bo Yu,
Yanqi Sun,
Wenke Song,
Linlin Wu,
Yongqin Zhou

Affiliations

Fangqiang Song: Department of Critical Care Medicine, Tengzhou Central People’s Hospital, Tengzhou, China
Qinglun Li: Department of Critical Care Medicine, Tengzhou Central People’s Hospital, Tengzhou, China
Jiyao Cui: Department of Critical Care Medicine, Tengzhou Central People’s Hospital, Tengzhou, China
Jianhua Wang: Translational Pharmaceutical Laboratory, Jining NO. 1 People’s Hospital, Jining, China
Shuai Xiao: Department of Critical Care Medicine, Tengzhou Central People’s Hospital, Tengzhou, China
Bo Yu: Department of Critical Care Medicine, Tengzhou Central People’s Hospital, Tengzhou, China
Yanqi Sun: Department of Critical Care Medicine, Tengzhou Central People’s Hospital, Tengzhou, China
Wenke Song: Department of Critical Care Medicine, Tengzhou Central People’s Hospital, Tengzhou, China
Linlin Wu: Department of Oncology, Tengzhou Central People’s Hospital, Tengzhou, China
Yongqin Zhou: Department of Critical Care Medicine, Tengzhou Central People’s Hospital, Tengzhou, China

DOI: https://doi.org/10.3389/fmicb.2024.1302907
Journal volume & issue: Vol. 15

Abstract

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BackgroundSepsis is commonly associated with a sudden impairment of brain function, thus leading to significant rates of illness and mortality. The objective of this research was to integrate microbiome and metabolome to reveal the mechanism of microbiota-hippocampus-metabolites axis dysfunction in a mouse model of sepsis.MethodsA mouse model of sepsis was established via cecal ligation and puncture. The potential associations between the composition of the gut microbiota and metabolites in the hippocampus of mice with sepsis were investigated by combining 16S ribosomal RNA gene sequencing and ultra-high-performance liquid chromatography tandem mass spectrometry.ResultsA total of 140 differential metabolites were identified in the hippocampal tissues of mice with sepsis when compared to those of control mice. These differential metabolites in mice with sepsis were not only associated with autophagy and serotonergic synapse, but also involved in the metabolism and synthesis of numerous amino acids. At the phylum level, the abundance of Bacteroidota was increased, while that of Firmicutes (Bacillota) was decreased in mice with sepsis. At the genus level, the abundance of Alistipes was increased, while that of Lachnospiraceae_NK4A136_group was decreased in mice with sepsis. The Firmicutes (Bacillota)/Bacteroidota (F/B) ratio was decreased in mice with sepsis when compared to that of control mice. Furthermore, the F/B ratio was positively correlated with 5′-methylthioadenosine, PC (18:3(9Z,12Z,15Z)/18:0) and curdione, and negatively correlated with indoxylsulfuric acid, corticosterone, kynurenine and ornithine.ConclusionAnalysis revealed a reduction in the F/B ratio in mice with sepsis, thus contributing to the disturbance of 5′-methylthioadenosine, curdione, PC (18:3(9Z,12Z,15Z)/18:0), corticosterone, ornithine, indoxylsulfuric acid and kynurenine; eventually, these changes led to hippocampus dysfunction. Our findings provide a new direction for the management of sepsis-induced hippocampus dysfunction.

Published in Frontiers in Microbiology

ISSN: 1664-302X (Online)
Publisher: Frontiers Media S.A.
Country of publisher: Switzerland
LCC subjects: Science: Microbiology
Website: http://www.frontiersin.org/journals/microbiology

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