患者体内抗N-甲基-d-天冬氨酸受体抗体导致小鼠记忆力减退和神经发生异常

IF 4.6 2区 医学 Q1 NEUROSCIENCES
Olga Taraschenko , Howard S. Fox , Priscilla Heliso , Fetweh Al-Saleem , Scott Dessain , Woo-Yang Kim , Mystera M. Samuelson , Raymond Dingledine
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引用次数: 0

摘要

目的抗 N-甲基-d-天冬氨酸受体(抗 NMDAR)脑炎会导致慢性癫痫和永久性认知障碍。抗 NMDAR 引起认知障碍的可能原因之一是神经发生异常,而神经发生异常是导致特发性耐药性癫痫患者记忆力丧失的既定因素。我们建立了一种抗 NMDAR 脑炎小鼠模型,结果表明,接触患者抗 NMDAR 抗体 2 周的小鼠会出现癫痫发作和记忆丧失。在本研究中,我们评估了患者衍生抗体对认知表型的延迟效应,并检查了海马神经发生的相应变化。方法:通过渗透压微型泵将单克隆抗 NMDAR 抗体或对照抗体持续注入雄性 C56BL/6J 小鼠(8-12 周)的侧脑室 2 周。在抗体冲洗后的第1周和第3-4周,使用开放场范式评估小鼠的运动和焦虑表型,并使用物体定位、Y迷宫和巴恩斯迷宫范式评估小鼠的海马记忆和学习能力。在这些时间点评估了新成熟颗粒神经元(Prox-1+)和未成熟祖细胞(DCX+)的数量及其在海马内的空间分布。在输注的第 2-12 天注射溴脱氧尿苷(BrdU,50 毫克/千克,静脉注射,每天一次),并比较抗体处理小鼠和对照组小鼠在冲洗第 4 周的增殖细胞免疫反应。对这些小鼠海马切片的组织学分析表明,与对照抗体处理的小鼠相比,齿状回中 Prox-1+ 细胞的异位移位增加(p = 0.01;t 检验)。暴露于抗 NMDAR 抗体的小鼠在抗体清除的第 3-4 周也会出现空间记忆和学习障碍(物体定位:p = 0.009;t 检验;Y 迷宫:p = 0.006,t 检验;巴恩斯迷宫:p = 0.008,方差分析;n = 8-10)。这些小鼠的海马齿状回中,低增殖(亮)与快增殖(暗)BrdU+细胞数之比增加,DCX+细胞数减少(分别为 p = 0.006 和 p = 0.04;t 检验),表明存在异位迁移和细胞增殖延迟。这些研究结果表明,患者的抗 NMDAR 抗体诱导的记忆和学习障碍在去除抗体后会持续存在,并伴随着海马神经发生的异常。针对脑炎和认知功能丧失患者神经元可塑性的干预措施可能具有保护和治疗意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Memory loss and aberrant neurogenesis in mice exposed to patient anti-N-methyl-d-aspartate receptor antibodies

Objective

Anti-N-methyl-d-aspartate receptor (anti-NMDAR) encephalitis results in chronic epilepsy and permanent cognitive impairment. One of the possible causes of cognitive impairment in anti-NMDAR could be aberrant neurogenesis, an established contributor to memory loss in idiopathic drug-resistant epilepsy. We developed a mouse model of anti-NMDAR encephalitis and showed that mice exposed to patient anti-NMDAR antibodies for 2 weeks developed seizures and memory loss. In the present study, we assessed the delayed effects of patient-derived antibodies on cognitive phenotype and examined the corresponding changes in hippocampal neurogenesis.

Methods

Monoclonal anti-NMDAR antibodies or control antibodies were continuously infused into the lateral ventricle of male C56BL/6J mice (8–12 weeks) via osmotic minipumps for 2 weeks. The motor and anxiety phenotypes were assessed using the open field paradigm, and hippocampal memory and learning were assessed using the object location, Y maze, and Barnes maze paradigms during weeks 1 and 3–4 of antibody washout. The numbers of newly matured granule neurons (Prox-1+) and immature progenitor cells (DCX+) as well as their spatial distribution within the hippocampus were assessed at these time points. Bromodeoxyuridine (BrdU, 50 mg/kg, i.p., daily) was injected on days 2–12 of the infusion, and proliferating cell immunoreactivity was compared in antibody-treated mice and control mice during week 4 of the washout.

Results

Mice infused with anti-NMDAR antibodies demonstrated spatial memory impairment during week 1 of antibody washout (p = 0.02, t-test; n = 9–11). Histological analysis of hippocampal sections from these mice revealed an increased ectopic displacement of Prox-1+ cells in the dentate hilus compared to the control-antibody-treated mice (p = 0.01; t-test). Mice exposed to anti-NMDAR antibodies also had an impairment of spatial memory and learning during weeks 3–4 of antibody washout (object location: p = 0.009; t-test; Y maze: p = 0.006, t-test; Barnes maze: p = 0.008, ANOVA; n = 8–10). These mice showed increased ratios of the low proliferating (bright) to fast proliferating (faint) BrdU+ cell counts and decreased number of DCX+ cells in the hippocampal dentate gyrus (p = 0.006 and p = 0.04, respectively; t-tests) suggesting ectopic migration and delayed cell proliferation.

Significance

These findings suggest that memory and learning impairments induced by patient anti-NMDAR antibodies are sustained upon removal of antibodies and are accompanied by aberrant hippocampal neurogenesis. Interventions directed at the manipulation of neuronal plasticity in patients with encephalitis and cognitive loss may be protective and therapeutically relevant.

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来源期刊
Experimental Neurology
Experimental Neurology 医学-神经科学
CiteScore
10.10
自引率
3.80%
发文量
258
审稿时长
42 days
期刊介绍: Experimental Neurology, a Journal of Neuroscience Research, publishes original research in neuroscience with a particular emphasis on novel findings in neural development, regeneration, plasticity and transplantation. The journal has focused on research concerning basic mechanisms underlying neurological disorders.
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