妊娠中期toll样受体7激动剂对母体免疫的激活增加了青春期后血脑屏障渗漏的易感性

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引用次数: 0

摘要

母体免疫激活(MIA)是一种母体应激源,会增加后代患神经精神疾病(如重度抑郁症)的风险。收费样受体 7(TLR7)的母体免疫激活以性别选择的方式在母体和胎儿中启动免疫反应。下丘脑室旁核(PVN)是一个具有性别双态性的脑区,它调节下丘脑-垂体-肾上腺(HPA)的应激反应。目前的研究基于之前对产前过量糖皮质激素应激的研究,描述了妊娠中期TLR7激活对成年后代PVN血管的性别选择性影响。我们对后代小鼠的视网膜血管进行了评估,以确定胎儿 MIA 是否会影响有或无束缚应激的成年小鼠大脑中的血管渗漏。在胚胎第(E)12.5天给定时怀孕的雌性小鼠注射TLR7激动剂Resiquimod (RQ)或生理盐水。测量基础和束缚应激诱导的皮质酮,以检查应激反应的变化。用异硫氰酸荧光素(FITC)对小鼠进行经心灌注,以评估血管的完整性。用 FITC 标记的血管切片通过子代 PVN 对神经胶质纤维酸性蛋白(GFAP;星形胶质细胞终末)和 IBA-1(小胶质细胞)进行免疫标记。使用 RQ 的 MIA 会导致后代在抑制 60 分钟后血浆皮质酮水平升高,这表明产前 RQ 会损害糖皮质激素负反馈。对血脑屏障的完整性进行了评估。注射了 RQ 的母鼠的成年后代在 PVN 中表现出更大的渗漏(雄性比雌性更大)。在经 RQ 处理的母鼠后代的 PVN 中,GFAP+与 FITC 标记血管的共定位较低,这可能是导致观察到的 FITC 渗漏增加的原因。作为神经免疫反应的一个指标,小胶质细胞与血管的关系接受了检测。数据显示,母体注射 RQ 后,PVN 中 IBA-1+ 细胞的大小和数量增加,且更接近血管,具有雄性选择性。经 RQ 处理的雌性母鼠体内的小胶质细胞没有变化,但在抑制后体积变小。这项研究支持胎儿免疫前体对脑血管和血脑屏障发育以及成人神经内分泌功能改变的性别选择性影响,这可能表明PVN位点增加了成人疾病的易感性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Maternal immune activation by toll-like receptor 7 agonist during mid-gestation increases susceptibility to blood-brain barrier leakage after puberty

Maternal immune activation (MIA), a maternal stressor, increases risk for neuropsychiatric diseases, such as Major Depressive Disorder in offspring. MIA of toll-like receptor 7 (TLR7) initiates an immune response in mother and fetuses in a sex-selective manner. The paraventricular nucleus of the hypothalamus (PVN), a brain region that is sexually dimorphic and regulates hypothalamic-pituitary-adrenal (HPA) stress responses, have been tied to stress-related behaviors (i.e., depression, anxiety, social impairments). The current study characterized the sex-selective impact of mid-gestational TLR7 activation on PVN vasculature of adult offspring based on a prior study of excess prenatal glucocorticoid stress. The PVN of offspring were evaluated to determine if fetal MIA impacted vascular leakage in the brains of adult mice with or without restraint stress. Timed-pregnant female mice were administered the TLR7 agonist Resiquimod (RQ) or saline vehicle on embryonic day (E) 12.5. Basal and restraint stress-induced corticosterone was measured to examine changes in stress response. Mice were perfused transcardially with fluorescein isothiocyanate (FITC) to assess blood vessel integrity. Sections with FITC-labeled blood vessels through the PVN of offspring were immunolabeled for Glial Fibrillary Acidic Protein (GFAP; astrocytic end feet) and IBA-1 (microglia). MIA with RQ led to elevated levels of plasma corticosterone 60-minutes after restraint in offspring, suggesting prenatal RQ impairs glucocorticoid negative feedback. Blood-brain barrier integrity was assessed. Adult offspring of RQ injected dams showed greater leakage in the PVN (greater in males than females). GFAP+ colocalization with FITC-labeled vessels was lower in the PVN of offspring from RQ treated dams, potentially contributing to the observed increased FITC leakage. Microglia were examined in relation to the vasculature as an indicator of a neuroimmune response. Data show IBA-1+ cells greater in size and number in the PVN with closer proximity to blood vessels after maternal injection of RQ in a male-selective manner. Microglia were unchanged in females from RQ-treated dams but were smaller in size after restraint. This study provides support for sex-selective influences of fetal immune antecedents for altered brain vascular and blood brain barrier development and adult neuroendocrine function that could indicate a PVN locus for increased susceptibility for adult disorders.

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