神经元限制性沉默因子对人BeWo细胞促肾上腺皮质激素释放激素基因表达的干扰。

Molecular Neuropsychiatry Pub Date : 2018-10-01 Epub Date: 2018-09-19 DOI:10.1159/000492635
Vasileios Kreouzis, Guo-Lin Chen, Gregory M Miller
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引用次数: 1

摘要

压力加剧疾病,了解其分子机制对于开发新的治疗干预措施以对抗压力相关疾病至关重要。下丘脑-垂体-肾上腺轴(HPA)应激反应的驱动因子是促肾上腺皮质激素释放激素(CRH),一种在下丘脑室旁核合成的神经肽。有证据表明,CRH的表达在分子水平上受到环境刺激的表观遗传修饰,从而引起应激反应的变化。这种影响是由一系列因素介导的,这些因素将环境变化转化为基因表达的改变。神经元限制性沉默因子(NRSF)是CRH表达的重要调控因子和表观遗传调节剂。之前,我们的实验室发现了许多NRSF的剪接变体,这些变体是人类特有的,并预测了NRSF变体对靶基因表达的差异调节作用。人BeWo细胞系具有内源性的CRH和NRSF表达,提供了体外模型系统。本研究表明,通过siRNA技术操纵NRSF表达、质粒载体过表达以及直接cAMP诱导,CRH表达与NRSF表达变化有关。因此,这种表观遗传调控途径可能是人类应激反应调控的关键机制。
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Perturbations of Neuron-Restrictive Silencing Factor Modulate Corticotropin-Releasing Hormone Gene Expression in the Human Cell Line BeWo.
Stress exacerbates disease, and understanding its molecular mechanisms is crucial to the development of novel therapeutic interventions to combat stress-related disorders. The driver of the stress response in the hypothalamic-pituitary-adrenal axis (HPA) is corticotropin-releasing hormone (CRH), a neuropeptide synthesized in the paraventricular nucleus of the hypothalamus. Evidence supports that CRH expression is epigenetically modified at the molecular level by environmental stimuli, causing changes in the stress response. This effect is mediated by a concert of factors that translate environmental change into alterations in gene expression. An important regulator and epigenetic modulator of CRH expression is neuron-restrictive silencing factor (NRSF). Previously, our lab identified numerous splice variants of NRSF that are specific to humans and predictive of differential regulatory effects of NRSF variants on targeted gene expression. The human cell line BeWo has endogenous CRH and NRSF expression providing an in vitro model system. Here, we show that manipulation of NRSF expression through siRNA technology, overexpression by plasmid vectors, and direct cAMP induction that CRH expression is linked to changes in NRSF expression. Accordingly, this epigenetic regulatory pathway in humans might be a critical mechanism involved in the regulation of the stress response.
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