Center for Wound Healing and Tissue Regeneration, College of Dentistry, University of Illinois at Chicago, Chicago, IL, USA.
Brain Behav Immun. 2013 May;30:88-94. doi: 10.1016/j.bbi.2013.01.075. Epub 2013 Jan 21.
Both basic and clinical research indicates that females are more susceptible to stress-related affective disorders than males. One of the mechanisms by which stress induces depression is via inflammatory signaling in the brain. Stress during adolescence, in particular, can also disrupt the activation and continued development of both the hypothalamic-pituitary-adrenal (HPA) and -gonadal (HPG) axes, both of which modulate inflammatory pathways and brain regions involved in affective behavior. Therefore, we tested the hypothesis that adolescent stress differentially alters brain inflammatory mechanisms associated with affective-like behavior into adulthood based on sex. Male and female Wistar rats underwent mixed-modality stress during adolescence (PND 37-48) and were challenged with lipopolysaccharide (LPS; 250μg/kg, i.p.) or saline 4.5weeks later (in adulthood). Hippocampal inflammatory marker gene expression and circulating HPA and HPG axes hormone concentrations were then determined. Despite previous studies indicating that adolescent stress induces affective-like behaviors in female rats only, this study demonstrated that adolescent stress increased hippocampal inflammatory responses to LPS in males only, suggesting that differences in neuroinflammatory signaling do not drive the divergent affective-like behaviors. The sex differences in inflammatory markers were not associated with differences in corticosterone. In females that experienced adolescent stress, LPS increased circulating estradiol. Estradiol positively correlated with hippocampal microglial gene expression in control female rats, whereas adolescent stress negated this relationship. Thus, estradiol in females may potentially protect against stress-induced increases in neuroinflammation.
基础和临床研究都表明,女性比男性更容易受到与压力相关的情感障碍的影响。压力导致抑郁的机制之一是通过大脑中的炎症信号。特别是青春期的压力,也会破坏下丘脑-垂体-肾上腺(HPA)和-性腺(HPG)轴的激活和持续发育,这两个轴都调节炎症途径和参与情感行为的大脑区域。因此,我们基于性别测试了青春期压力是否会以不同的方式改变与情感样行为相关的大脑炎症机制的假说。雄性和雌性 Wistar 大鼠在青春期(PND 37-48)期间接受混合模式应激,然后在 4.5 周后(成年期)用脂多糖(LPS;250μg/kg,腹腔内注射)或盐水进行挑战。然后确定海马炎症标志物基因表达和循环 HPA 和 HPG 轴激素浓度。尽管先前的研究表明,青春期压力仅在雌性大鼠中引起情感样行为,但本研究表明,青春期压力仅增加雄性大鼠对 LPS 的海马炎症反应,表明神经炎症信号的差异不会导致不同的情感样行为。炎症标志物的性别差异与皮质酮的差异无关。在经历青春期压力的雌性大鼠中,LPS 增加了循环雌二醇。在对照组雌性大鼠中,雌二醇与海马小胶质细胞基因表达呈正相关,而青春期压力则否定了这种关系。因此,雌性大鼠中的雌二醇可能潜在地防止应激引起的神经炎症增加。