子痫前期诱导的胎儿小鼠脑和肝脏基因表达和DNA甲基化模式的改变。

IF 1.8 4区医学 Q3 PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH

Journal of Developmental Origins of Health and Disease Pub Date : 2023-02-01 DOI:10.1017/S2040174422000344

Naomi Hofsink, Dorieke J Dijkstra, Violeta Stojanovska, Sicco A Scherjon, Torsten Plösch

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引用次数: 1

摘要

暴露于妊娠并发症，包括先兆子痫(PE)，对后代的健康有终身影响。我们之前报道过，在妊娠第8.5天给药腺病毒sFlt1并在妊娠第10.5天给药LPS诱导小鼠实验性PE，结果雌性后代对称生长受限，雄性后代不对称生长受限。在这里，我们描述了胎儿大脑和肝脏在妊娠末期基因转录和DNA甲基化方面的分子表型。在胎儿大脑和肝脏中，几个关键调控基因的表达和DNA甲基化会因PE暴露而改变，这些基因的表达和DNA甲基化大多与胎儿性别无关。这些改变表明肝脏糖异生减少，大脑神经生成受到刺激，可能长期影响大脑和肝脏功能。观察到的性别特异性生长限制模式并没有反映在分子数据中，这表明PE而不是组织生长驱动PE暴露后代的分子表型。

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Preeclampsia-induced alterations in brain and liver gene expression and DNA methylation patterns in fetal mice.

Exposure to pregnancy complications, including preeclampsia (PE), has lifelong influences on offspring's health. We have previously reported that experimental PE, induced in mice by administration of adenoviral sFlt1 at gestational day 8.5 combined with LPS at day 10.5, results in symmetrical growth restriction in female and asymmetrical growth restriction in male offspring. Here, we characterize the molecular phenotype of the fetal brain and liver with respect to gene transcription and DNA methylation at the end of gestation.In fetal brain and liver, expression and DNA methylation of several key regulatory genes is altered by PE exposure, mostly independent of fetal sex. These alterations point toward a decreased gluconeogenesis in the liver and stimulated neurogenesis in the brain, potentially affecting long-term brain and liver function. The observed sex-specific growth restriction pattern is not reflected in the molecular data, showing that PE, rather than tissue growth, drives the molecular phenotype of PE-exposed offspring.

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来源期刊

Journal of Developmental Origins of Health and Disease PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH-

CiteScore

3.80

自引率

0.00%

发文量

145

审稿时长

6-12 weeks

期刊介绍： JDOHaD publishes leading research in the field of Developmental Origins of Health and Disease (DOHaD). The Journal focuses on the environment during early pre-natal and post-natal animal and human development, interactions between environmental and genetic factors, including environmental toxicants, and their influence on health and disease risk throughout the lifespan. JDOHaD publishes work on developmental programming, fetal and neonatal biology and physiology, early life nutrition, especially during the first 1,000 days of life, human ecology and evolution and Gene-Environment Interactions. JDOHaD also accepts manuscripts that address the social determinants or education of health and disease risk as they relate to the early life period, as well as the economic and health care costs of a poor start to life. Accordingly, JDOHaD is multi-disciplinary, with contributions from basic scientists working in the fields of physiology, biochemistry and nutrition, endocrinology and metabolism, developmental biology, molecular biology/ epigenetics, human biology/ anthropology, and evolutionary developmental biology. Moreover clinicians, nutritionists, epidemiologists, social scientists, economists, public health specialists and policy makers are very welcome to submit manuscripts. The journal includes original research articles, short communications and reviews, and has regular themed issues, with guest editors; it is also a platform for conference/workshop reports, and for opinion, comment and interaction.