研究乳源性细胞外囊泡作为母体应激和环境干预的介质。

Julia Martz, Baila Hammer, Tristen J Langen, Benjamin Berkowitz, Benzion Berkowitz, Jasmyne A Storm, Jueqin Lu, Deepali Lehri, Sanoji Wijenayake, Jordan Marrocco, Amanda C Kentner
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引用次数: 0

摘要

父母的沟通信号通过护理传递,并对神经发育轨迹产生关键影响。哺乳期母体免疫激活(MIA)会扰乱母体生理机能,降低乳汁质量,并与后代不良的神经行为结果相关,这与啮齿动物妊娠挑战的一些特征相一致。这种情况发生时,MIA不会显著影响孕产妇护理。虽然妊娠期MIA模型对环境干预有反应,这有利于改变母乳成分和相关的后代结局,但对母乳中潜在的恢复力介质的了解仍然很少。鉴于它们具有运输和储存生物活性物质的能力,我们认为乳源性细胞外囊泡(mev)是将环境编程信号(如mirna)从哺乳母亲传递给后代的载体。通过大鼠模型,我们发现哺乳期MIA改变了后代MEV miRNA的量和海马miRNA的表达。在配对后代的海马中也发现了mev中的几个mirna。值得注意的是,当在富集的环境中饲养水坝时,mev和海马中观察到的miRNA失调得到了拯救,这表明环境富集保护了MIA的影响,这在行为表型中也观察到了。成年后代海马的RNA-seq显示与早期生活调节的mirna基因靶点相关的长期转录变化。我们的研究结果将MEV miRNA货物定位为动态规划信号,通过该信号,母亲的经验传递给后代,编码影响发育的应激诱导和保护提示。这表明,母乳喂养干预可以调节牛奶的遗传货物,规划发育中的婴儿的生活。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Investigating milk-derived extracellular vesicles as mediators of maternal stress and environmental intervention.

Parental communication signals are transmitted through nursing and critically shape neurodevelopmental trajectories. Mirroring some well characterized effects of gestational challenges in rodents, maternal immune activation (MIA) during the lactational period disrupts maternal physiology, decreases lipid content, and is associated with adverse neurobehavioral outcomes in offspring. This occurs without MIA significantly affecting maternal care. While gestational MIA models are responsive to environmental interventions, which beneficially alter maternal milk composition and associated offspring outcomes, the bioactive mediators in milk underlying resilience remain poorly understood. Milk-derived extracellular vesicles (MEVs) transport and deposit biologically active cargo, including microRNAs (miRNAs) that induce post-translational regulation of candidate mRNA in the nursing offspring's tissues and cells. Using a rat model, we show that lactational MIA alters MEV-miRNA cargo and the expression of hippocampal miRNAs in offspring. Several miRNAs in MEVs were also found in the hippocampus of matching offspring. Remarkably, the miRNA changes in MEVs and the neonatal hippocampus were rescued when dams were raised in an enriched environment, suggesting environmental enrichment protected from the effects of MIA. This was supported by the behavioral phenotype. RNA-seq of adult offspring hippocampus showed long-term transcriptional changes associated with the gene targets of early-life regulated miRNAs. Our results position MEV-miRNA as dynamic programming signals by which maternal experience is communicated to offspring, encoding both stress-induced and protective cues that influence development. This suggests that breastfeeding interventions can regulate the genetic cargo of the milk, programming the life of developing infants.

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