Fabiola Cr Zucchi, Norah-Faye Matthies, Noora Badr, Gerlinde A Metz
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Immuno-histochemical analysis of GR expression was performed to determine receptor activation.</p><p><strong>Results: </strong>Stress reduced reaching success in naïve animals and diminished recovery of limb use. Exaggerated functional loss in stressed rats was related to increased GR activation in the lesion hemisphere as indicated by nuclear GR location.</p><p><strong>Conclusion: </strong>These findings provide a mechanistic link between stress-induced motor disability and GR activation in a rat model of stroke. The elevated receptor activation proposes synergistic effects of stress and stroke to modulate the impact of glucocorticoids on motor system function at the genomic level. The modulation of GR biosynthesis may alter responsiveness to stroke treatment and compromise recovery.</p>","PeriodicalId":12158,"journal":{"name":"Experimental & Translational Stroke Medicine","volume":" ","pages":"18"},"PeriodicalIF":0.0000,"publicationDate":"2010-09-22","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2954925/pdf/","citationCount":"0","resultStr":"{\"title\":\"Stress-induced glucocorticoid receptor activation determines functional recovery following ischemic stroke.\",\"authors\":\"Fabiola Cr Zucchi, Norah-Faye Matthies, Noora Badr, Gerlinde A Metz\",\"doi\":\"10.1186/2040-7378-2-18\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><strong>Background: </strong>A major consequence of stroke is permanent motor disturbance, such as postural imbalance and loss of skilled movement. 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Exaggerated functional loss in stressed rats was related to increased GR activation in the lesion hemisphere as indicated by nuclear GR location.</p><p><strong>Conclusion: </strong>These findings provide a mechanistic link between stress-induced motor disability and GR activation in a rat model of stroke. The elevated receptor activation proposes synergistic effects of stress and stroke to modulate the impact of glucocorticoids on motor system function at the genomic level. 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引用次数: 0
摘要
背景:中风的一个主要后果是永久性运动障碍,如姿势失衡和熟练动作的丧失。下丘脑-垂体-肾上腺轴的激活以及对糖皮质激素的反应会影响中风后神经元和功能丧失的程度以及随后的恢复。本研究探讨了在脑卒中大鼠模型中,脑卒中后的恢复是否与糖皮质激素受体(GR)的激活有关:方法:对成年雄性大鼠进行熟练伸手任务的预先训练和测试,并对其进行局灶性缺血性运动皮层损伤。一组动物从脑损伤前一周开始至脑损伤后三周每天接受束缚应激。对GR表达进行免疫组化分析以确定受体激活情况:结果:应激降低了原始动物的伸展成功率,并减少了肢体使用的恢复。应激大鼠功能丧失的加剧与病变半球 GR 激活的增加有关,GR 核位置表明了这一点:结论:这些研究结果提供了在中风大鼠模型中应激诱导的运动障碍与 GR 激活之间的机理联系。受体激活的升高表明应激和中风具有协同作用,可在基因组水平上调节糖皮质激素对运动系统功能的影响。对GR生物合成的调节可能会改变对中风治疗的反应并影响康复。
Stress-induced glucocorticoid receptor activation determines functional recovery following ischemic stroke.
Background: A major consequence of stroke is permanent motor disturbance, such as postural imbalance and loss of skilled movement. The degree of neuronal and functional loss and subsequent recovery after stroke is influenced by hypothalamic-pituitary-adrenal axis activation and the response to glucocorticoid hormones. This study investigated if recovery after stroke is related to glucocorticoid receptor (GR) activation in a rat model of stroke.
Methods: Adult male rats were pre-trained and tested in a skilled reaching task and received a focal ischemic motor cortex lesion. One group of animals received daily restraint stress starting one week pre-lesion up to three weeks post-lesion. Immuno-histochemical analysis of GR expression was performed to determine receptor activation.
Results: Stress reduced reaching success in naïve animals and diminished recovery of limb use. Exaggerated functional loss in stressed rats was related to increased GR activation in the lesion hemisphere as indicated by nuclear GR location.
Conclusion: These findings provide a mechanistic link between stress-induced motor disability and GR activation in a rat model of stroke. The elevated receptor activation proposes synergistic effects of stress and stroke to modulate the impact of glucocorticoids on motor system function at the genomic level. The modulation of GR biosynthesis may alter responsiveness to stroke treatment and compromise recovery.
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