Bonapersona Valeria, Damsteegt Ruth, Adams Mirjam L, van Weert Lisa T C M, Meijer Onno C, Joëls Marian, Sarabdjitsingh Ratna Angela
Department of Translational Neuroscience, UMC Utrecht Brain Center, Utrecht University, Utrecht, Netherlands.
Department of Internal Medicine, Leiden University Medical Center, Division of Endocrinology, Leiden, Netherlands.
Front Behav Neurosci. 2019 Aug 7;13:181. doi: 10.3389/fnbeh.2019.00181. eCollection 2019.
Early life stress (ELS) is considered a major risk factor for developing psychopathology. Increasing evidence points towards sex-dependent dysregulation of the hypothalamic-pituitary-adrenal (HPA) axis as a contributing mechanism. Additionally, clinical studies suggest that the mineralocorticoid receptor (MR) may further confer genetic vulnerability/resilience on a background of ELS. The link between ELS, sex and the HPA axis and how this interacts with MR genotype is understudied, yet important to understand vulnerability/resilience to stress. We used the early life-limited nesting and bedding model to test the effect of ELS on HPA properties in adult female and male mice carrying a forebrain-specific heterozygous knockout for MR. Basal HPA axis activity was measured by circadian peak and nadir corticosterone levels, in addition to body weight and weight of stress-sensitive tissues. HPA axis reactivity was assessed by mapping corticosterone levels after 10 min immobilization. Additionally, we measured the effects of ELS on steroid receptor [MR and glucocorticoid receptor (GR)] levels in the dorsal hippocampus and medial prefrontal cortex (mPFC) with western blot. Finally, behavioral reactivity towards a novel environment was measured as a proxy for anxiety-like behavior. Results show that HPA axis activity under rest conditions was not affected by ELS. HPA axis reactivity after immobilization was decreased by ELS in females and increased, at trend-level in males. This effect in females was further exacerbated by low expression of the MR. We also observed a sex*ELS interaction regarding MR and GR expression in the dorsal hippocampus, with a significant upregulation of MR in males only. The sex-dependent interaction with ELS was not reflected in the behavioral response to novel environment and time spent in a sheltered compartment. We did find increased locomotor activity in all groups after a history of ELS, which attenuated after 4 h in males but not females regardless of condition. Our findings support that ELS alters HPA axis functioning sex-dependently. Genetic predisposition to low MR function may render females more susceptible to the harmful effect of ELS whereas in males low MR function promotes resilience. We propose that this model may be a useful tool to investigate the underlying mechanisms of sex-dependent and genetic vulnerability/resilience to stress-related psychopathology.
早年生活应激(ELS)被认为是发展为精神病理学的一个主要风险因素。越来越多的证据表明,下丘脑-垂体-肾上腺(HPA)轴的性别依赖性失调是一个促成机制。此外,临床研究表明,盐皮质激素受体(MR)可能在ELS的背景下进一步赋予遗传易感性/恢复力。ELS、性别与HPA轴之间的联系以及它们如何与MR基因型相互作用尚有待研究,但对于理解应激的易感性/恢复力很重要。我们使用早年生活受限的筑巢和垫料模型,来测试ELS对成年雌性和雄性小鼠HPA特性的影响,这些小鼠携带前脑特异性MR杂合敲除。通过昼夜节律性皮质酮峰值和谷值水平,以及体重和应激敏感组织的重量来测量基础HPA轴活性。通过绘制10分钟固定后的皮质酮水平来评估HPA轴反应性。此外,我们用蛋白质印迹法测量ELS对背侧海马体和内侧前额叶皮质(mPFC)中类固醇受体[MR和糖皮质激素受体(GR)]水平的影响。最后,测量对新环境的行为反应性,作为焦虑样行为的指标。结果表明,休息条件下的HPA轴活性不受ELS影响。固定后,ELS降低了雌性小鼠的HPA轴反应性,而在雄性小鼠中则呈趋势性增加。MR低表达进一步加剧了雌性小鼠的这种效应。我们还观察到背侧海马体中MR和GR表达存在性别*ELS相互作用,仅在雄性小鼠中MR显著上调。与ELS的性别依赖性相互作用未反映在对新环境的行为反应和在庇护隔间中花费的时间上。我们确实发现,在有ELS经历后,所有组的运动活性都增加了,无论何种情况,雄性小鼠在4小时后运动活性减弱,而雌性小鼠则没有。我们的研究结果支持ELS以性别依赖的方式改变HPA轴功能。低MR功能的遗传易感性可能使雌性小鼠更容易受到ELS的有害影响,而在雄性小鼠中,低MR功能则促进恢复力。我们认为,这个模型可能是一个有用的工具,用于研究与应激相关的精神病理学的性别依赖性和遗传易感性/恢复力背后的机制。
