Gut Microbiota-Metabolite-Brain Axis Reconstitution Reverses Sevoflurane-Induced Social and Synaptic Deficits in Neonatal Mice.

IF 11 1区 综合性期刊 Q1 Multidisciplinary Research Pub Date : 2024-09-19 eCollection Date: 2024-01-01 DOI:10.34133/research.0482
Youyi Zhao, Sanxing Ma, Lirong Liang, Shuhui Cao, Ze Fan, Danyi He, Xiaotong Shi, Yao Zhang, Bing Liu, Meiting Zhai, Shengxi Wu, Fang Kuang, Hui Zhang
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Abstract

Background: The mechanisms underlying social dysfunction caused by repeated sevoflurane in early life remain unclear. Whether the gut microbiota-metabolite-brain axis is involved in the mechanism of sevoflurane developmental neurotoxicity still lacks report. Methods: Mice received 3% sevoflurane at postnatal day (PND) 6, 7, and 8 for 2 h per day. Metagenomic sequencing and untargeted metabolomic analysis were applied to investigate the effects of sevoflurane on gut microbiota and metabolism. The animal social behavior and the synaptic development were analyzed during PND 35. Subsequently, fecal microbiota transplantation (FMT) from the control group and bile acid administration were performed to see the expected rescuing effect on socially related behaviors that were impaired by repeated sevoflurane exposure in the mice. Results: In the 3-chamber test, sevoflurane-exposed mice spent less time with stranger mice compared with the control group. The density of both the apical and basal spine decreased in mice exposed to sevoflurane. In addition, repeated sevoflurane exposure led to a notable alteration in the gut microbiota and metabolite synthesis, particularly bile acid. FMT reduced the production of intestinal bile acid and attenuated the effect of sevoflurane exposure on social function and synaptic development. Cholestyramine treatment mimics the protective effects of FMT. Conclusions: The gut microbiota-metabolite-brain axis underlies social dysfunction caused by sevoflurane exposure in early age, and bile acid regulation may be a promising intervention to this impairment.

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肠道微生物群-代谢产物-脑轴重建可逆转七氟醚诱导的新生小鼠社交和突触缺陷
背景:生命早期反复使用七氟醚导致社会功能障碍的机制仍不清楚。肠道微生物群-代谢物-脑轴是否参与了七氟烷发育神经毒性的机制仍缺乏报道。研究方法小鼠在出生后第 6、7 和 8 天接受 3% 的七氟烷,每天 2 小时。应用元基因组测序和非靶向代谢组分析研究七氟烷对肠道微生物群和代谢的影响。在PND 35期间,对动物的社会行为和突触发育进行了分析。随后,进行了对照组粪便微生物群移植(FMT)和胆汁酸给药,以观察对小鼠因反复暴露于七氟烷而受损的社交相关行为的预期挽救效果。结果在三腔试验中,与对照组相比,暴露于七氟烷的小鼠与陌生人相处的时间更短。暴露于七氟烷的小鼠顶端和基底脊柱的密度均有所下降。此外,反复暴露于七氟烷会导致肠道微生物群和代谢物合成(尤其是胆汁酸)发生显著变化。FMT减少了肠道胆汁酸的产生,减轻了七氟烷暴露对社会功能和突触发育的影响。胆碱治疗可模拟 FMT 的保护作用。结论肠道微生物群-代谢物-脑轴是早期七氟烷暴露导致的社交功能障碍的基础,而胆汁酸调节可能是一种很有前景的干预措施。
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来源期刊
Research
Research Multidisciplinary-Multidisciplinary
CiteScore
13.40
自引率
3.60%
发文量
0
审稿时长
14 weeks
期刊介绍: Research serves as a global platform for academic exchange, collaboration, and technological advancements. This journal welcomes high-quality research contributions from any domain, with open arms to authors from around the globe. Comprising fundamental research in the life and physical sciences, Research also highlights significant findings and issues in engineering and applied science. The journal proudly features original research articles, reviews, perspectives, and editorials, fostering a diverse and dynamic scholarly environment.
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