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首页> 外文期刊>Cell death & disease. >Neonatal infection leads to increased susceptibility to Aβ oligomer-induced brain inflammation, synapse loss and cognitive impairment in mice
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Neonatal infection leads to increased susceptibility to Aβ oligomer-induced brain inflammation, synapse loss and cognitive impairment in mice

机译:新生儿感染导致对β低聚物诱导的脑炎症,突触损失和小鼠认知障碍的易感性增加

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Harmful environmental stimuli during critical stages of development can profoundly affect behavior and susceptibility to diseases. Alzheimer disease (AD) is the most frequent neurodegenerative disease, and evidence suggest that inflammatory conditions act cumulatively, contributing to disease onset. Here we investigated whether infection early in life can contribute to synapse damage and cognitive impairment induced by amyloid-β oligomers (AβOs), neurotoxins found in AD brains. To this end, wild-type mice were subjected to neonatal (post-natal day 4) infection by Escherichia coli (1?×?104 CFU/g), the main cause of infection in low-birth-weight premature infants in the US. E. coli infection caused a transient inflammatory response in the mouse brain starting shortly after infection. Although infected mice performed normally in behavioral tasks in adulthood, they showed increased susceptibility to synapse damage and memory impairment induced by low doses of AβOs (1?pmol; intracerebroventricular) in the novel object recognition paradigm. Using in vitro and in vivo approaches, we show that microglial cells from E. coli-infected mice undergo exacerbated activation when exposed to low doses of AβOs. In addition, treatment of infected pups with minocycline, an antibiotic that inhibits microglial pro-inflammatory polarization, normalized microglial response to AβOs and restored normal susceptibility of mice to oligomer-induced cognitive impairment. Interestingly, mice infected with by E. coli (1?×?104 CFU/g) during adolescence (post-natal day 21) or adulthood (post-natal day 60) showed normal cognitive performance even in the presence of AβOs (1?pmol), suggesting that only infections at critical stages of development may lead to increased susceptibility to amyloid-β-induced toxicity. Altogether, our findings suggest that neonatal infections can modulate microglial response to AβOs into adulthood, thus contributing to amyloid-β-induced synapse damage and cognitive impairment.
机译:在发育的关键阶段期间有害环境刺激可以深刻地影响疾病的行为和易感性。阿尔茨海默病(AD)是最常见的神经变性疾病,证据表明炎症病症累积,有助于疾病发作。在这里,我们研究了在AD大脑中淀粉样蛋白-βligomers(AβOS)诱导的突触损伤和认知障碍是否有助于突触损伤和认知障碍。为此,通过大肠杆菌(1?×104 cfu / g)进行新生儿(产前第4天)感染的新生儿(11-×104 cfu / g),是美国低出生体重早产儿感染的主要原因。大肠杆菌感染在感染后短暂起动在小鼠脑中引起瞬态炎症反应。虽然感染的小鼠通常在成年期的行为任务中进行,但它们表现出对由低剂量的Aβ(1?PMOL; IntraceBrentricular)在新的对象识别范例中诱导的突触损伤和记忆损伤的易感性增加。在体外和体内方法使用,我们表明,当暴露于低剂量的AβOS时,从大肠杆菌感染的小鼠中显示来自大肠杆菌感染的小鼠的显微胶质细胞。此外,用米诺环素治疗感染的幼崽,抑制微胶质促炎偏振的抗生素,对AβOS的标准化的微胶质反应,并恢复小鼠的正常敏感性,以低聚物诱导的认知障碍。有趣的是,在青春期(产前第21天)或成年期(产前第21天)或成年期(产前第60天)的大肠杆菌(1?×104 cfu / g)感染的小鼠表现出正常的认知性能,即使在albos存在下(1? PMOL),表明只有在发育的关键阶段仅感染可能导致对淀粉样蛋白-β-诱导的毒性的敏感性增加。我们的研究结果表明,新生儿感染可以调节对AβOS的微胶质反应进入成年期,从而有助于淀粉样蛋白-β-诱导的突触伤害和认知障碍。

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