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压力迅速增加大鼠齿状回中的 alpha 1d 肾上腺素能受体 mRNA。

Stress rapidly increases alpha 1d adrenergic receptor mRNA in the rat dentate gyrus.

机构信息

Department of Psychology and Neuroscience, University of Colorado, Boulder, USA.

出版信息

Brain Res. 2010 Apr 6;1323:109-18. doi: 10.1016/j.brainres.2010.01.084. Epub 2010 Feb 6.

DOI:10.1016/j.brainres.2010.01.084
PMID:20138850
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2888891/
Abstract

The hippocampal formation is a highly plastic brain region that is sensitive to stress. It receives extensive noradrenergic projections, and noradrenaline is released in the hippocampus in response to stressor exposure. The hippocampus expresses particularly high levels of the alpha(1D) adrenergic receptor (ADR) and we have previously demonstrated that alpha(1d) ADR mRNA expression in the rat hippocampus is modulated by corticosterone. One of the defining features of a stress response is activation of the hypothalamic pituitary adrenal (HPA) axis, resulting in the release of corticosterone from the adrenal glands. However, the effect of stress on hippocampal expression of alpha(1d) ADR mRNA has not been determined. In this study, male rats were exposed to inescapable tail shock, loud noise or restraint, and the effect on alpha(1d) ADR mRNA expression in the hippocampus was determined by semi-quantitative in situ hybridization. All three stressors resulted in a rapid upregulation of alpha(1d) ADR mRNA in the dentate gyrus, with expression peaking at approximately 90min after the start of the stressor. Physical activity has previously been reported to counteract some of the effects of stress that occur within the dentate gyrus. However, 6weeks of voluntary wheel running in rats did not prevent the restraint stress-induced increase in alpha(1d) ADR mRNA expression in the dentate gyrus. Although the function of the alpha(1D) ADR in the dentate gyrus is not known, these data provide further evidence for a close interaction between stress and the noradrenergic system in the hippocampus.

摘要

海马结构是一个高度可塑性的脑区,对压力敏感。它接收广泛的去甲肾上腺素能投射,并且去甲肾上腺素在海马中响应应激暴露而释放。海马表达特别高水平的α(1D)肾上腺素能受体(ADR),并且我们先前已经证明,大鼠海马中的α(1d)ADR mRNA 表达受皮质酮调节。应激反应的一个定义特征是下丘脑-垂体-肾上腺(HPA)轴的激活,导致皮质酮从肾上腺释放。然而,应激对海马中α(1d)ADR mRNA 表达的影响尚未确定。在这项研究中,雄性大鼠暴露于无法逃避的尾部电击、巨响或束缚,通过半定量原位杂交测定海马中α(1d)ADR mRNA 的表达。所有三种应激源都导致齿状回中α(1d)ADR mRNA 的快速上调,在应激开始后约 90 分钟达到表达峰值。先前已经报道,身体活动可以抵消齿状回中发生的一些应激效应。然而,大鼠 6 周的自愿轮跑并不能阻止束缚应激引起的齿状回中α(1d)ADR mRNA 表达的增加。尽管齿状回中α(1D)ADR 的功能尚不清楚,但这些数据提供了进一步的证据,表明应激和海马中的去甲肾上腺素能系统之间存在密切的相互作用。

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