Kent Molly, Bardi Massimo, Hazelgrove Ashley, Sewell Kaitlyn, Kirk Emily, Thompson Brooke, Trexler Kristen, Terhune-Cotter Brennan, Lambert Kelly
Department of Psychology, Gottwald Science Center B-326, University of Richmond, Richmond, VA 23173, United States.
Department of Psychology and Behavioral Neuroscience, Randolph-Macon College, Ashland, VA 23005, United States.
Horm Behav. 2017 Sep;95:33-43. doi: 10.1016/j.yhbeh.2017.07.011. Epub 2017 Aug 4.
Coping strategies have been associated with differential stress responsivity, perhaps providing a valuable neurobiological marker for susceptibility to the emergence of depressogenic symptoms or vulnerability to other anxiety-related disorders. Rats profiled with a flexible coping phenotype, for example, exhibit increased neurobiological markers of emotional regulation compared to active and passive copers (Bardi et al., 2012; Lambert et al., 2014). In the current study, responses of male and female rats to prediction errors in a spatial foraging task (dry land maze; DLM) were examined after animals were exposed to chronic unpredictable stress (CUS). Brains were processed following the DLM training/assessment for fos-activation patterns and several measures of neuroplasticity in relevant areas. Behavioral responses observed during both the CUS and DLM phases of testing suggested that males and females employ different means of gathering information such as increased ambulatory exploration in males and rear responses in females. Fecal samples collected during baseline and following CUS swim exposure revealed higher corticosterone (CORT) in active copers, whereas flexible copers had higher dehydroepiandrosterone (DHEA) and DHEA/CORT ratios, both indications of enhanced emotional regulation. Focusing on the neural analysis, flexible copers exhibited fewer fos-immunoreactive cells in the basolateral amygdala and a trend toward lower activation in the insula while encountering the prediction error associated with the DLM probe trial. Coping profiles also differentially influenced markers of neuroplasticity; specifically, flexible copers exhibited higher levels nestin-immunoreactivity (ir). Further, less hippocampal glucocorticoid receptor-ir was observed in the flexible copers than the active and passive copers. In sum, flexible coping rats exhibited evidence of emotional resilience as indicated by several neurobiological measures; however, despite increased rates of depression and related symptoms reported in human females, sex effects weren't as pervasive as coping strategy profiles in the analysis of neurobiological markers employed in the current study.
应对策略与不同的应激反应性相关,这或许为抑郁症状的出现易感性或对其他焦虑相关障碍的易损性提供了一个有价值的神经生物学标记。例如,与主动应对者和被动应对者相比,具有灵活应对表型的大鼠表现出情绪调节的神经生物学标记增加(巴尔迪等人,2012年;兰伯特等人,2014年)。在本研究中,在雄性和雌性大鼠暴露于慢性不可预测应激(CUS)后,检测它们在空间觅食任务(旱地迷宫;DLM)中对预测误差的反应。在DLM训练/评估后,对大脑进行处理,以观察fos激活模式以及相关区域的几种神经可塑性指标。在CUS和DLM测试阶段观察到的行为反应表明,雄性和雌性采用不同的信息收集方式,例如雄性增加走动探索,雌性增加后肢反应。在基线期和CUS游泳暴露后收集的粪便样本显示,主动应对者的皮质酮(CORT)较高,而灵活应对者的脱氢表雄酮(DHEA)和DHEA/CORT比值较高,这两者均表明情绪调节增强。专注于神经分析,在遇到与DLM探测试验相关的预测误差时,灵活应对者在基底外侧杏仁核中表现出较少的fos免疫反应性细胞,在脑岛中有较低激活的趋势。应对模式也对神经可塑性标记有不同影响;具体而言,灵活应对者表现出较高水平的巢蛋白免疫反应性(ir)。此外,与主动和被动应对者相比,在灵活应对者中观察到海马糖皮质激素受体-ir较少。总之,灵活应对的大鼠表现出多种神经生物学指标所表明的情绪恢复力证据;然而,尽管人类女性中抑郁症和相关症状的发生率有所增加,但在本研究中使用的神经生物学标记分析中,性别效应并不像应对策略模式那样普遍。
