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Stress Increases Peripheral Axon Growth and Regeneration through Glucocorticoid Receptor-Dependent Transcriptional Programs

机译：应激通过糖皮质激素受体依赖性转录程序增加外周轴突的生长和再生。

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Stress and glucocorticoid (GC) release are common behavioral and hormonal responses to injury or disease. In the brain, stress/GCs can alter neuron structure and function leading to cognitive impairment. Stress and GCs also exacerbate pain, but whether a corresponding change occurs in structural plasticity of sensory neurons is unknown. Here, we show that in female mice (Mus musculus) basal GC receptor (Nr3c1, also known as GR) expression in dorsal root ganglion (DRG) sensory neurons is 15-fold higher than in neurons in canonical stress-responsive brain regions (M. musculus). In response to stress or GCs, adult DRG neurite growth increases through mechanisms involving GR-dependent gene transcription. In vivo, prior exposure to an acute systemic stress increases peripheral nerve regeneration. These data have broad clinical implications and highlight the importance of stress and GCs as novel behavioral and circulating modifiers of neuronal plasticity.

机译：压力和糖皮质激素（GC）释放是对伤害或疾病的常见行为和激素反应。在大脑中，压力/ GC可以改变神经元的结构和功能，从而导致认知障碍。压力和GC也会加剧疼痛，但是尚不清楚感觉神经元的结构可塑性是否发生相应的变化。在这里，我们表明，在雌性小鼠（小家鼠）的背根神经节（DRG）感觉神经元中，基础GC受体（Nr3c1，也称为GR）的表达比规范应激反应性脑区域中的神经元高15倍（M （小家鼠）。响应压力或GC，成年DRG神经突的生长通过涉及GR依赖性基因转录的机制而增加。在体内，事先暴露于急性全身性应激会增加周围神经的再生。这些数据具有广泛的临床意义，并强调了压力和GC作为神经元可塑性的新型行为和循环调节剂的重要性。

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期刊名称 eNeuro
作者
Jessica K. Lerch; Jessica K. Alexander; Kathryn M. Madalena; Dario Motti; Tam Quach; Akhil Dhamija; Alicia Zha; John C. Gensel; Jeanette Webster Marketon; Vance P. Lemmon; John L. Bixby; Phillip G. Popovich;
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年(卷),期 2017(4),4
年度 2017
页码 2017
总页数 19
原文格式 PDF
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Key Words: dorsal root ganglia glucocorticoid receptor plasticity stress;

机译：关键词：背根神经节;糖皮质激素受体;可塑性;压力;

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专利

1. The role of glucocorticoid receptor-dependent activity in the amygdala central nucleus and reversibility of early-life stress programmed behavior [J] . M G Arnett, M S Pan, W Doak, Translational psychiatry. . 2015,第4期

机译：糖皮质激素受体依赖性活性在Amygdala中央核中的作用和早期压力计划行为的可逆性
2. Exercise dependent increase in axon regeneration into peripheral nerve grafts by propriospinal but not sensory neurons after spinal cord injury is associated with modulation of regeneration-associated genes [J] . Sachdeva Rahul, Theisen Catherine C., Ninan Vinu, Experimental Neurology . 2016,第Null期

机译：脊髓损伤后，脊柱脊髓运动引起的轴突再生依赖于运动，而不是感觉神经元，而不是感觉神经元，这与再生相关基因的调节有关
3. Peripheral nerve regeneration through alginate gel: analysis of early outgrowth and late increase in diameter of regenerating axons [J] . T. Hashimoto, Y. Suzuki, M. Kitada, Experimental Brain Research . 2002,第3期

机译：通过藻酸盐凝胶再生周围神经：早期轴突生长和再生轴突直径后期增加的分析
4. Shear stress activation of the glucocorticoid receptor transcription pathway [C] . J. Y. Ji, S. L. Diamond Joint Engineering in Medicine and Biology Society-Biomedical Engineering Society Conference . 2002

机译：糖皮质激素受体转录途径的剪切应力激活
5. Controlled Release of Growth Factors and Axon Guidance Molecules for Peripheral Nerve Regeneration [D] . Man, Alan John 2014

机译：周围神经再生的生长因子和轴突指导分子的受控释放
6. The role of glucocorticoid receptor-dependent activity in the amygdala central nucleus and reversibility of early-life stress programmed behavior [O] . M G Arnett, M S Pan, W Doak, 2015

机译：糖皮质激素受体依赖性活性在杏仁核中央核中的作用和早期应激程序性行为的可逆性
7. The role of glucocorticoid receptor-dependent activity in the amygdala central nucleus and reversibility of early-life stress programmed behavior [O] . M G Arnett, M S Pan, W Doak, 2015

机译：糖皮质激素受体依赖性活性在Amygdala中央核中的作用和早期压力计划行为的可逆性

Stress Increases Peripheral Axon Growth and Regeneration through Glucocorticoid Receptor-Dependent Transcriptional Programs

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