生物
失调
肠道菌群
肠-脑轴
胎儿
产前应激
转录组
免疫学
益生菌
神经保护
怀孕
代谢组
子痫前期
生物信息学
妊娠期
微生物群
肠神经系统
生理学
中枢神经系统
调节器
炎症
神经科学
神经炎症
势垒函数
作者
Xuanping Wang,Fangyue Zhou,Ting Wu,Chenchi Duan,Xukai Luo,Yicong Meng,He-Feng Huang,Yan-Ting Wu
出处
期刊:Gut microbes
[Landes Bioscience]
日期:2026-02-19
卷期号:18 (1): 2631242-2631242
被引量:1
标识
DOI:10.1080/19490976.2026.2631242
摘要
Maternal prenatal stress confers elevated neuropsychiatric risk to offspring, yet the mechanisms underlying fetal neurodevelopmental impairment remain elusive. The gut microbiota has emerged as a key regulator of brain development and behavior. However, the mechanisms mediating the interactions between the microbiota and the developing brain are still poorly understood. Here, utilizing a prenatal stress mouse model integrated with multi-omics approaches, comprehensive behavioral assays, and molecular validations, we demonstrate that prenatal stress not only induces maternal gut microbiota dysbiosis during pregnancy but also, more critically, leads to fetal blood‒brain barrier (BBB) developmental defects and subsequent abnormalities in emotional behavior and cognitive function in adult offspring. Maternal probiotic supplementation during gestation can reverse both gut microbial dysbiosis and fetal BBB dysfunction. Notably, transcriptomic analysis reveals that the maternal gut microbiota modulates interferon-β (IFN-β) signaling along the placenta‒fetal brain axis under stress. Furthermore, metabolomic profiling suggests that prenatal stress exposure profoundly influences the maternal fecal and serum metabolome. In conclusion, our findings establish a placenta‒brain axis wherein maternal microbial signals orchestrate fetal neurovascular development, identifying microbiota-targeted interventions as a neuroprotective strategy.
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