APP21 转基因大鼠在白质束中出现年龄依赖性认知障碍和小胶质细胞积累。

APP21 transgenic rats develop age-dependent cognitive impairment and microglia accumulation within white matter tracts.

机构信息

Vulnerable Brain Laboratory, Department of Anatomy and Cell Biology, Schulich School of Medicine and Dentistry, University of Western Ontario, 1151 Richmond St, London, Ontario, N6A 5C1, Canada.

Department of Veterinary Pathobiology, College of Veterinary Medicine, University of Missouri, Columbia, MO, USA.

出版信息

J Neuroinflammation. 2018 Aug 28;15(1):241. doi: 10.1186/s12974-018-1273-7.

DOI:10.1186/s12974-018-1273-7

PMID:30153843

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6114740/

Abstract

BACKGROUND

Most of the animal models commonly used for preclinical research into Alzheimer's disease (AD) largely fail to address the pathophysiology, including the impact of known risk factors, of the widely diagnosed sporadic form of the disease. Here, we use a transgenic rat (APP21) that does not develop AD-like pathology spontaneously with age, but does develop pathology following vascular stress. To further the potential of this novel rat model as a much-needed pre-clinical animal model of sporadic AD, we characterize APP21 transgenic rats behaviorally and histologically up to 19 months of age.

METHODS

The open field test was used as a measure of activity; and the Morris water maze was used to assess learning, memory, and strategy shift. Neuronal loss and microglia activation were also assessed throughout the brain.

RESULTS

APP21 transgenic rats showed deficits in working memory from an early age, yet memory recall performance after 24 and 72 h was equal to that of wildtype rats and did not deteriorate with age. A deficit in strategy shift was observed at 19 months of age in APP21 transgenic rats compared to Fischer wildtype rats. Histologically, APP21 transgenic rats demonstrated accelerated white matter inflammation compared to wildtype rats, but interestingly no differences in neuron loss were observed.

CONCLUSIONS

The combined presence of white matter pathology and executive function deficits mirrored what is often found in patients with mild cognitive impairment or early dementia, and suggests that this rat model will be useful for translationally meaningful studies into the development and prevention of sporadic AD. The presence of widespread white matter inflammation as the only observed pathological correlate for cognitive deficits raises new questions as to the role of neuroinflammation in cognitive decline.

摘要

背景

大多数用于阿尔茨海默病（AD）临床前研究的动物模型在很大程度上未能解决包括已知风险因素在内的广泛诊断出的散发性疾病的病理生理学。在这里，我们使用一种转基因大鼠（APP21），其不会随着年龄的增长而自发发展出 AD 样病理学，但会在血管应激后发展出病理学。为了进一步提高这种新型大鼠模型作为急需的散发性 AD 临床前动物模型的潜力，我们对 APP21 转基因大鼠进行了行为和组织学特征描述，直至其 19 个月大。

方法

使用开阔场测试作为活动的测量方法；使用 Morris 水迷宫评估学习、记忆和策略转变。还评估了整个大脑中的神经元丢失和小胶质细胞激活。

结果

APP21 转基因大鼠从早期开始就表现出工作记忆缺陷，但 24 和 72 小时后的记忆回忆表现与野生型大鼠相当，且不会随年龄恶化。与 Fischer 野生型大鼠相比，APP21 转基因大鼠在 19 个月大时观察到策略转变缺陷。组织学上，APP21 转基因大鼠表现出比野生型大鼠更快的白质炎症，但令人感兴趣的是，没有观察到神经元丢失的差异。

结论

白质病理学和执行功能缺陷的共同存在与轻度认知障碍或早期痴呆患者中经常发现的情况相似，这表明该大鼠模型将有助于进行有意义的转化研究，以了解散发性 AD 的发展和预防。认知缺陷的唯一观察到的病理相关性是广泛的白质炎症，这提出了神经炎症在认知衰退中的作用的新问题。

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APP21 转基因大鼠在白质束中出现年龄依赖性认知障碍和小胶质细胞积累。

APP21 transgenic rats develop age-dependent cognitive impairment and microglia accumulation within white matter tracts.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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