Dept. Pharmacology & Systems Physiology, University of Cincinnati, Cincinnati, OH, United States.
Dept. Pharmacology & Systems Physiology, University of Cincinnati, Cincinnati, OH, United States.
Psychoneuroendocrinology. 2020 Feb;112:104490. doi: 10.1016/j.psyneuen.2019.104490. Epub 2019 Oct 27.
Adolescent animals are vulnerable to the effects of stress on brain development. We hypothesized that long-term effects of adolescent chronic stress are mediated by glucocorticoid receptor (GR) signaling. We used a specific GR modulator (CORT108297) to pharmacologically disrupt GR signaling in adolescent rats during exposure to chronic variable stress (CVS). Male and female rats received 30 mg/kg of drug during a 2-week CVS protocol starting at PND46. Emotional reactivity (open field) and coping behaviors (forced swim test (FST)) were then tested in adulthood, 5 weeks after the end of the CVS protocol. Blood samples were collected two days before FST and serial samples after the onset of the swim test to determine baseline and stress response levels of HPA hormones respectively. Our results support differential behavioral, physiological and stress circuit reactivity to adolescent chronic stress exposure in males and females, with variable involvement of GR signaling. In response to adolescent stress, males had heightened reactivity to novelty and exhibited marked reduction in neuronal excitation following swim stress in adulthood, whereas females developed a passive coping strategy in the FST and enhanced HPA axis stress reactivity. Only the latter effect was attenuated by treatment with the GR modulator C108297. In summary, our data suggest that adolescent stress differentially affects emotional behavior and circuit development in males and females, and that GR manipulation during stress can reverse at least some of these effects.
青春期动物易受到应激对大脑发育影响。我们假设青春期慢性应激的长期影响是通过糖皮质激素受体(GR)信号转导介导的。我们使用一种特定的 GR 调节剂(CORT108297)在暴露于慢性可变应激(CVS)期间对青春期大鼠的 GR 信号进行药理学破坏。雄性和雌性大鼠在 PND46 开始的为期 2 周的 CVS 方案中接受 30mg/kg 的药物。在 CVS 方案结束 5 周后,进行成年期的情绪反应(旷场)和应对行为(强迫游泳测试(FST))测试。在 FST 之前两天和游泳测试开始后采集血样,分别确定 HPA 激素的基线和应激反应水平。我们的结果支持雄性和雌性对青春期慢性应激暴露的行为、生理和应激回路反应存在差异,GR 信号转导的参与情况也不同。在青春期应激的情况下,雄性对新奇事物的反应更加敏感,在成年期游泳应激后表现出明显的神经元兴奋减少,而雌性在 FST 中表现出被动应对策略,并增强了 HPA 轴的应激反应。只有后者的作用被 GR 调节剂 C108297 治疗所减弱。总之,我们的数据表明,青春期应激对雄性和雌性的情绪行为和回路发育有不同的影响,并且在应激期间进行 GR 操作可以逆转其中的一些影响。