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A gut-derived metabolite alters brain activity and anxiety behaviour in mice

代谢物 生物 少突胶质细胞 肠道菌群 髓鞘 神经科学 微生物群 肠-脑轴 细胞生物学 中枢神经系统 免疫学 生物化学 遗传学
作者
Brittany D. Needham,Masanori Funabashi,Mark D. Adame,Zhuo Wang,Joseph C. Boktor,Jillian R. Haney,Wei-Li Wu,Claire Rabut,Mark S. Ladinsky,Son‐Jong Hwang,Yumei Guo,Qiyun Zhu,Jessica Griffiths,Rob Knight,Pamela J. Björkman,Mikhail G. Shapiro,Daniel H. Geschwind,Daniel P. Holschneider,Michael A. Fischbach,Sarkis K. Mazmanian
出处
期刊:Nature [Nature Portfolio]
卷期号:602 (7898): 647-653 被引量:454
标识
DOI:10.1038/s41586-022-04396-8
摘要

Integration of sensory and molecular inputs from the environment shapes animal behaviour. A major site of exposure to environmental molecules is the gastrointestinal tract, in which dietary components are chemically transformed by the microbiota1 and gut-derived metabolites are disseminated to all organs, including the brain2. In mice, the gut microbiota impacts behaviour3, modulates neurotransmitter production in the gut and brain4,5, and influences brain development and myelination patterns6,7. The mechanisms that mediate the gut–brain interactions remain poorly defined, although they broadly involve humoral or neuronal connections. We previously reported that the levels of the microbial metabolite 4-ethylphenyl sulfate (4EPS) were increased in a mouse model of atypical neurodevelopment8. Here we identified biosynthetic genes from the gut microbiome that mediate the conversion of dietary tyrosine to 4-ethylphenol (4EP), and bioengineered gut bacteria to selectively produce 4EPS in mice. 4EPS entered the brain and was associated with changes in region-specific activity and functional connectivity. Gene expression signatures revealed altered oligodendrocyte function in the brain, and 4EPS impaired oligodendrocyte maturation in mice and decreased oligodendrocyte–neuron interactions in ex vivo brain cultures. Mice colonized with 4EP-producing bacteria exhibited reduced myelination of neuronal axons. Altered myelination dynamics in the brain have been associated with behavioural outcomes7,9–14. Accordingly, we observed that mice exposed to 4EPS displayed anxiety-like behaviours, and pharmacological treatments that promote oligodendrocyte differentiation prevented the behavioural effects of 4EPS. These findings reveal that a gut-derived molecule influences complex behaviours in mice through effects on oligodendrocyte function and myelin patterning in the brain. The gut-derived molecule 4-ethylphenol influences complex behaviours in mice through effects on oligodendrocyte function and myelin patterning in the brain.
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