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母体缺氧和胎盘缺血对胚胎及新生大鼠脑内HIF1依赖性代谢和糖皮质激素系统影响的比较分析

Comparative Analysis of the Effects of Maternal Hypoxia and Placental Ischemia on HIF1-Dependent Metabolism and the Glucocorticoid System in the Embryonic and Newborn Rat Brain.

作者信息

Vetrovoy Oleg, Potapova Sofiya, Stratilov Viktor, Tyulkova Ekaterina

机构信息

Laboratory of Regulation of Brain Neuronal Functions, Pavlov Institute of Physiology, Russian Academy of Sciences, Makarova emb. 6, 199034 Saint-Petersburg, Russia.

出版信息

Int J Mol Sci. 2024 Dec 12;25(24):13342. doi: 10.3390/ijms252413342.

DOI:10.3390/ijms252413342
PMID:39769106
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11727977/
Abstract

Prenatal hypoxia, often accompanied by maternal glucocorticoid stress, can predispose offspring to neurological disorders in adulthood. If placental ischemia (PI) primarily reduces fetal oxygen supply, the maternal hypoxia (MH) model also elicits a pronounced fetal glucocorticoid exposure. Here, we compared MH and PI in rats to distinguish their unique and overlapping effects on embryonic and newborn brain development. We analyzed glucocorticoid transport into the developing brain, glucocorticoid receptor (GR) expression, and GR-dependent transcription, along with key enzymes regulating glucocorticoid metabolism in maternal (MP) and fetal placentas (FP) and in the brain. Additionally, we examined hypoxia-inducible factor 1-alpha (HIF1α) and its downstream genes, as well as glycolysis and the pentose phosphate pathway, both associated with the transport of substrates essential for glucocorticoid synthesis and degradation. Both MH and PI induced HIF1-dependent metabolic alterations, enhancing glycolysis and transiently disrupting redox homeostasis. However, only MH caused a maternal glucocorticoid surge that altered early fetal brain glucocorticoid responsiveness. Over time, these differences may lead to distinct long-term outcomes in neuronal structure and function. This work clarifies the individual contributions of hypoxic and glucocorticoid stresses to fetal brain development, suggesting that combining the MH and PI models could provide valuable insights for future investigations into the mechanisms underlying developmental brain pathologies, including non-heritable psychoneurological and neurodegenerative disorders.

摘要

产前缺氧通常伴有母体糖皮质激素应激,可使后代成年后易患神经系统疾病。如果胎盘缺血(PI)主要减少胎儿氧气供应,那么母体缺氧(MH)模型也会导致胎儿显著暴露于糖皮质激素。在此,我们比较了大鼠中的MH和PI,以区分它们对胚胎和新生大脑发育的独特和重叠影响。我们分析了糖皮质激素向发育中大脑的转运、糖皮质激素受体(GR)表达和GR依赖性转录,以及母体胎盘(MP)、胎儿胎盘(FP)和大脑中调节糖皮质激素代谢的关键酶。此外,我们检测了缺氧诱导因子1α(HIF1α)及其下游基因,以及糖酵解和磷酸戊糖途径,这两者都与糖皮质激素合成和降解所必需的底物转运有关。MH和PI均诱导了HIF1依赖性代谢改变,增强了糖酵解并短暂破坏了氧化还原稳态。然而,只有MH导致母体糖皮质激素激增,从而改变了早期胎儿大脑对糖皮质激素的反应性。随着时间的推移,这些差异可能导致神经元结构和功能出现不同的长期结果。这项工作阐明了缺氧和糖皮质激素应激对胎儿大脑发育的各自作用,表明将MH和PI模型结合起来可为未来研究发育性脑病理学(包括非遗传性精神神经和神经退行性疾病)的潜在机制提供有价值的见解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1e5d/11727977/242d2fb6ca17/ijms-25-13342-g009.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1e5d/11727977/242d2fb6ca17/ijms-25-13342-g009.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1e5d/11727977/a17ddd919179/ijms-25-13342-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1e5d/11727977/c5bd5a3762ab/ijms-25-13342-g002.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1e5d/11727977/026a59124ce6/ijms-25-13342-g008.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1e5d/11727977/242d2fb6ca17/ijms-25-13342-g009.jpg

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Oxidative Stress in Pregnancy.妊娠中的氧化应激。
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