Bath Kevin G, Nitenson Arielle Schilit, Lichtman Ezra, Lopez Chelsea, Chen Whitney, Gallo Meghan, Goodwill Haley, Manzano-Nieves Gabriela
Department of Cognitive, Linguistic, and Psychological Sciences, Brown University, Providence RI 02912, United States.
Department of Neuroscience, Brown University, Providence, RI 02912, United States.
Neurobiol Stress. 2017 Apr 24;7:57-67. doi: 10.1016/j.ynstr.2017.04.001. eCollection 2017 Dec.
Disruptions in early life care, including neglect, extreme poverty, and trauma, influence neural development and increase the risk for and severity of pathology. Significant sex disparities have been identified for affective pathology, with females having an increased risk of developing anxiety and depressive disorder. However, the effects of early life stress (ELS) on cognitive development have not been as well characterized, especially in reference to sex specific impacts of ELS on cognitive abilities over development. In mice, fragmented maternal care resulting from maternal bedding restriction, was used to induce ELS. The development of spatial abilities were tracked using a novel object placement (NOP) task at several different ages across early development (P21, P28, P38, P50, and P75). Male mice exposed to ELS showed significant impairments in the NOP task compared with control reared mice at all ages tested. In female mice, ELS led to impaired NOP performance immediately following weaning (P21) and during peri-adolescence (P38), but these effects did not persist into early adulthood. Prior work has implicated impaired hippocampus neurogenesis as a possible mediator of negative outcomes in ELS males. In the hippocampus of behaviorally naïve animals there was a significant decrease in expression of Ki-67 (proliferative marker) and doublecortin (DCX-immature cell marker) as mice aged, and a more rapid developmental decline in these markers in ELS reared mice. However, the effect of ELS dissipated by P28 and no main effect of sex were observed. Together these results indicate that ELS impacts the development of spatial abilities in both male and female mice and that these effects are more profound and lasting in males.
早期生活照料中的干扰因素,包括忽视、极端贫困和创伤,会影响神经发育,并增加患病的风险和严重程度。情感病理学方面已发现显著的性别差异,女性患焦虑症和抑郁症的风险更高。然而,早期生活应激(ELS)对认知发展的影响尚未得到充分描述,尤其是ELS对认知能力在整个发育过程中的性别特异性影响。在小鼠中,通过限制母鼠垫料导致的碎片化母性照料被用于诱导ELS。在早期发育的几个不同年龄段(P21、P28、P38、P50和P75),使用新物体放置(NOP)任务来跟踪空间能力的发展。与在所有测试年龄段的对照饲养小鼠相比,暴露于ELS的雄性小鼠在NOP任务中表现出显著受损。在雌性小鼠中,ELS导致断奶后立即(P21)和青春期前后(P38)的NOP表现受损,但这些影响并未持续到成年早期。先前的研究表明,海马体神经发生受损可能是ELS雄性小鼠负面结果的一个中介因素。在行为幼稚的动物海马体中,随着小鼠年龄的增长,Ki-67(增殖标记物)和双皮质素(DCX-未成熟细胞标记物)的表达显著下降,并且在ELS饲养的小鼠中这些标记物的发育下降更快。然而,ELS的影响在P28时消失,未观察到性别主效应。这些结果共同表明,ELS影响雄性和雌性小鼠的空间能力发展,并且这些影响在雄性中更为深刻和持久。