模仿人类 tau 病理学分子和空间方面的新型 tau 病模型。

IF 4.1 Q1 CLINICAL NEUROLOGY Brain communications Pub Date : 2024-09-19 eCollection Date: 2024-01-01 DOI:10.1093/braincomms/fcae326
Rin Yanai, Tomoki T Mitani, Etsuo A Susaki, Takeharu Minamihisamatsu, Masafumi Shimojo, Yuri Saito, Hiroshi Mizuma, Nobuhiro Nitta, Daita Kaneda, Yoshio Hashizume, Gen Matsumoto, Kentaro Tanemura, Ming-Rong Zhang, Makoto Higuchi, Hiroki R Ueda, Naruhiko Sahara
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引用次数: 0

摘要

建立能再现人类 tau 病理学的小鼠模型对于制定干预 tau 诱导的神经退行性变的策略至关重要。然而,模仿人类病理学中的病理特征往往需要权衡人为效应,如意外的基因插入和表达系统的神经毒性。为了克服这些问题,我们开发了rTKhomo小鼠模型,将转基因CaMKII-tTA系统与C57BL/6J背景下Rosa26基因座上P301L突变的1N4R人类tau基因敲入结合起来。该模型密切模拟了人类tau病理学,尤其是在海马CA1区,表现出年龄依赖性tau积累、神经元缺失和神经炎症。值得注意的是,全脑三维染色和光片显微镜显示了从内皮层到海马的tau沉积空间梯度,这与Braak神经纤维缠结分期的空间分布相似。此外,[18F]PM-PBB3正电子发射断层成像还能对tau沉积进行量化和实时监测。rTKhomo小鼠模型显示出作为下一代临床前工具的潜力,可用于探索tau病的发病机制和开发针对tau病理学空间进展的干预措施。
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A novel tauopathy model mimicking molecular and spatial aspects of human tau pathology.

Creating a mouse model that recapitulates human tau pathology is essential for developing strategies to intervene in tau-induced neurodegeneration. However, mimicking the pathological features seen in human pathology often involves a trade-off with artificial effects such as unexpected gene insertion and neurotoxicity from the expression system. To overcome these issues, we developed the rTKhomo mouse model by combining a transgenic CaMKII-tTA system with a P301L mutated 1N4R human tau knock-in at the Rosa26 locus with a C57BL/6J background. This model closely mimics human tau pathology, particularly in the hippocampal CA1 region, showing age-dependent tau accumulation, neuronal loss and neuroinflammation. Notably, whole-brain 3D staining and light-sheet microscopy revealed a spatial gradient of tau deposition from the entorhinal cortex to the hippocampus, similar to the spatial distribution of Braak neurofibrillary tangle staging. Furthermore, [18F]PM-PBB3 positron emission tomography imaging enabled the quantification and live monitoring of tau deposition. The rTKhomo mouse model shows potential as a promising next-generation preclinical tool for exploring the mechanisms of tauopathy and for developing interventions targeting the spatial progression of tau pathology.

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