Soluble brain homogenates from diverse human and mouse sources preferentially seed diffuse Aβ plaque pathology when injected into newborn mouse hosts.

Q3 Medicine

Free neuropathology Pub Date : 2022-01-11 Epub Date: 2022-03-23 DOI:10.17879/freeneuropathology-2022-3766

Brenda D Moore, Yona Levites, Guilian Xu, Hailey Hampton, Munir F Adamo, Cara L Croft, Hunter S Futch, Corey Moran, Susan Fromholt, Christopher Janus, Stefan Prokop, Dennis Dickson, Jada Lewis, Benoit I Giasson, Todd E Golde, David R Borchelt

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引用次数: 0

Abstract

Background: Seeding of pathology related to Alzheimer's disease (AD) and Lewy body disease (LBD) by tissue homogenates or purified protein aggregates in various model systems has revealed prion-like properties of these disorders. Typically, these homogenates are injected into adult mice stereotaxically. Injection of brain lysates into newborn mice represents an alternative approach of delivering seeds that could direct the evolution of amyloid-β (Aβ) pathology co-mixed with either tau or α-synuclein (αSyn) pathology in susceptible mouse models.

Methods: Homogenates of human pre-frontal cortex were injected into the lateral ventricles of newborn (P0) mice expressing a mutant humanized amyloid precursor protein (APP), human P301L tau, human wild type αSyn, or combinations thereof. The homogenates were prepared from AD and AD/LBD cases displaying variable degrees of Aβ pathology and co-existing tau and αSyn deposits. Behavioral assessments of APP transgenic mice injected with AD brain lysates were conducted. For comparison, homogenates of aged APP transgenic mice that preferentially exhibit diffuse or cored deposits were similarly injected into the brains of newborn APP mice.

Results: We observed that lysates from the brains with AD (Aβ+, tau+), AD/LBD (Aβ+, tau+, αSyn+), or Pathological Aging (Aβ+, tau-, αSyn-) efficiently seeded diffuse Aβ deposits. Moderate seeding of cerebral amyloid angiopathy (CAA) was also observed. No animal of any genotype developed discernable tau or αSyn pathology. Performance in fear-conditioning cognitive tasks was not significantly altered in APP transgenic animals injected with AD brain lysates compared to nontransgenic controls. Homogenates prepared from aged APP transgenic mice with diffuse Aβ deposits induced similar deposits in APP host mice; whereas homogenates from APP mice with cored deposits induced similar cored deposits, albeit at a lower level.

Conclusions: These findings are consistent with the idea that diffuse Aβ pathology, which is a common feature of human AD, AD/LBD, and PA brains, may arise from a distinct strain of misfolded Aβ that is highly transmissible to newborn transgenic APP mice. Seeding of tau or αSyn comorbidities was inefficient in the models we used, indicating that additional methodological refinement will be needed to efficiently seed AD or AD/LBD mixed pathologies by injecting newborn mice.

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当注射到新生小鼠宿主体内时，来自不同人和小鼠来源的可溶性脑匀浆优先产生弥漫性Aβ斑块病理。

背景：通过组织匀浆或纯化蛋白聚集体在各种模型系统中植入与阿尔茨海默病（AD）和路易体病（LBD）相关的病理，揭示了这些疾病的朊病毒样特性。通常，将这些匀浆以立体定向方式注射到成年小鼠体内。在易感小鼠模型中，将脑裂解物注射到新生小鼠中代表了一种传递种子的替代方法，可以指导淀粉样蛋白-β (Aβ)病理与tau或α-突触核蛋白（αSyn）病理混合的进化。方法：将表达人源化淀粉样前体蛋白（APP）、人源化P301L tau、人源化野生型αSyn或其组合的新生小鼠侧脑室注射人前额叶皮层匀浆。AD和AD/LBD患者均质液显示不同程度的Aβ病理和共存的tau和αSyn沉积。对注射AD脑裂解物的APP转基因小鼠进行行为评价。为了进行比较，将优先表现为弥漫性或芯状沉积物的老年APP转基因小鼠的匀浆同样注射到新生APP小鼠的大脑中。结果：我们观察到AD (Aβ+, tau+), AD/LBD （Aβ+, tau+, αSyn+）或病理性老化（Aβ+, tau-, αSyn-）脑的裂解物有效地播撒弥漫性Aβ沉积物。中度脑淀粉样血管病（CAA）也被观察到。没有任何基因型的动物出现明显的tau或αSyn病理。与非转基因对照相比，注射AD脑裂解物的APP转基因动物在恐惧调节认知任务中的表现没有显著改变。具有弥漫性Aβ沉积的老年APP转基因小鼠制备的匀浆在APP宿主小鼠中诱导了类似的沉积；而具有核沉积的APP小鼠的均质液诱导了类似的核沉积，尽管水平较低。结论：这些发现与弥漫性a β病理的观点是一致的，弥漫性a β病理是人类AD、AD/LBD和PA大脑的共同特征，可能是由一种不同的错误折叠的a β菌株引起的，这种菌株高度可传播给新生转基因APP小鼠。在我们使用的模型中，tau或αSyn合并症的播种是低效的，这表明需要进一步改进方法，通过注射新生小鼠有效地播种AD或AD/LBD混合病理。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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