Veerasammy Stephanie, Van Steenwinckel Juliette, Le Charpentier Tifenn, Seo Joon Ho, Fleiss Bobbi, Gressens Pierre, Levison Steven W
Department of Pharmacology, Physiology, and Neuroscience, Rutgers University, New Jersey Medical School, Cancer Center, 205 South Orange Avenue, Newark, NJ, 07103, USA.
Université de Paris, NeuroDiderot, Inserm, F-75019, Paris, France.
Brain Behav Immun Health. 2020 Jul 17;7:100106. doi: 10.1016/j.bbih.2020.100106. eCollection 2020 Aug.
Meta-analyses have revealed associations between the incidence of maternal infections during pregnancy, premature birth, smaller brain volumes, and subsequent cognitive, motor and behavioral deficits as these children mature. Inflammation during pregnancy in rodents produces cognitive and behavioral deficits in the offspring that are similar to those reported in human studies. These deficits are accompanied by decreased neurogenesis and proliferation in the subgranular zone (SGZ) of the dentate gyrus (DG) of the hippocampus. As systemically administering interleukin-1 β (IL-1β) to neonatal mice recapitulates many of the brain abnormalities seen in premature babies including developmental delays, the goal of this study was to determine whether IL-1-mediated neuroinflammation would affect hippocampal growth during development to produce cognitive and behavioral abnormalities. For these studies, 10 ng/g IL-1β was administered twice daily to Swiss Webster mice during the first 5 days of life, which increased hippocampal levels of IL-1α and acutely reduced the proliferation of Tbr2 neural progenitors in the DG. , both IL-1α and IL-1β produced G1/S cell cycle arrest that resulted in reduced progenitor cell proliferation within the transit amplifying progenitor cell cohort. By contrast, IL-1β treatment increased neural stem cell frequency. Upon terminating IL-1β treatment, the progenitor cell pool regained its proliferative capacity. An earlier study that used this model of perinatal inflammation showed that mice that received IL-1β as neonates displayed memory deficits which suggested abnormal hippocampal function. To evaluate whether other cognitive and behavioral traits associated with hippocampal function would also be altered, mice were tested in tasks designed to assess exploratory and anxiety behavior as well as working and spatial memory. Interestingly, mice that received IL-1β as neonates showed signs of anxiety in several behavioral assays during adolescence that were also evident in adulthood. Additionally, these mice did not display working memory deficits in adulthood, but they did display deficits in long-term spatial memory. Altogether, these data support the view that perinatal inflammation negatively affects the developing hippocampus by producing behavioral deficits that persist into adulthood. These data provide a new perspective into the origin of the cognitive and behavioral impairments observed in prematurely-born sick infants.
荟萃分析揭示了孕期母体感染的发生率、早产、脑容量较小与这些儿童长大后随后出现的认知、运动和行为缺陷之间的关联。啮齿动物孕期的炎症会在其后代中产生认知和行为缺陷,这与人类研究报告的情况相似。这些缺陷伴随着海马齿状回颗粒下区(SGZ)神经发生和增殖的减少。由于对新生小鼠全身注射白细胞介素-1β(IL-1β)会重现早产儿出现的许多脑异常情况,包括发育迟缓,本研究的目的是确定IL-1介导的神经炎症是否会影响发育过程中海马的生长,从而导致认知和行为异常。在这些研究中,在出生后的前5天,每天给瑞士韦伯斯特小鼠注射两次10 ng/g的IL-1β,这会增加海马中IL-1α的水平,并急性降低齿状回中Tbr2神经祖细胞的增殖。IL-1α和IL-1β都会导致G1/S细胞周期停滞,从而导致过渡放大祖细胞群体内的祖细胞增殖减少。相比之下,IL-1β治疗会增加神经干细胞频率。在终止IL-1β治疗后,祖细胞池恢复了其增殖能力。一项早期使用这种围产期炎症模型的研究表明,新生时接受IL-1β的小鼠表现出记忆缺陷,这表明海马功能异常。为了评估与海马功能相关的其他认知和行为特征是否也会改变,对小鼠进行了旨在评估探索和焦虑行为以及工作和空间记忆的任务测试。有趣的是,新生时接受IL-1β的小鼠在青春期的几种行为测试中表现出焦虑迹象,在成年期也很明显。此外,这些小鼠在成年期没有表现出工作记忆缺陷,但它们确实表现出长期空间记忆缺陷。总之,这些数据支持这样一种观点,即围产期炎症通过产生持续到成年期的行为缺陷对发育中的海马产生负面影响。这些数据为早产患病婴儿中观察到的认知和行为障碍的起源提供了新的视角。
