Department of Psychology, University of Texas at Austin, Austin, TX, USA.
Department of Physiology, University of Valencia Faculty of Medicine, Valencia, Spain.
J Alzheimers Dis. 2021;79(4):1381-1396. doi: 10.3233/JAD-201165.
This review examines new biomolecular findings that lend support to the hemodynamic role played by chronic brain hypoperfusion (CBH) in driving a pathway to Alzheimer's disease (AD). CBH is a common clinical feature of AD and the current topic of intense investigation in AD models. CBH is also the basis for the vascular hypothesis of AD which we originally proposed in 1993. New biomolecular findings reveal the interplay of CBH in increasing tau phosphorylation (p-Tau) in the hippocampus and cortex of AD mice, damaging fast axonal transport, increasing signaling of mammalian target of rapamycin (mTOR), impairing learning-memory function, and promoting the formation of neurofibrillary tangles, a neuropathologic hallmark of AD. These pathologic elements have been singularly linked with neurodegeneration and AD but their abnormal, collective participation during brain aging have not been fully examined. The format for this review will provide a consolidated analysis of each pathologic phase contributing to cognitive decline and AD onset, summarized in nine chronological steps. These steps galvanize each factor's active participation and contribution in constructing a biomolecular pathway to AD onset generated by CBH.
这篇综述考察了新的生物分子发现,这些发现支持了慢性脑灌注不足 (CBH) 在驱动阿尔茨海默病 (AD) 发病途径中的血流动力学作用。CBH 是 AD 的常见临床特征,也是 AD 模型中当前研究的热点。CBH 也是我们在 1993 年最初提出的 AD 血管假说的基础。新的生物分子发现揭示了 CBH 在增加 AD 小鼠海马和皮质中 tau 磷酸化 (p-Tau) 中的相互作用,损害快速轴突运输,增加雷帕霉素靶蛋白 (mTOR) 的信号,损害学习记忆功能,并促进神经纤维缠结的形成,这是 AD 的神经病理学标志。这些病理元素已被单独与神经退行性变和 AD 联系起来,但它们在脑老化过程中的异常集体参与尚未得到充分研究。本综述的形式将对每个导致认知能力下降和 AD 发病的病理阶段进行综合分析,总结为九个时间顺序的步骤。这些步骤激发了每个因素在构建由 CBH 引起的 AD 发病的生物分子途径中的积极参与和贡献。
