蛋白质毒性应激在阿尔茨海默病发病机制中血管功能障碍的作用

IF 0.7
A. C. Fonseca, R. Resende, S. Cardoso, C. Pereira
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引用次数: 3

摘要

阿尔茨海默病(AD)是老年人痴呆的主要原因;然而,由于目前用于控制症状的药物无法预防、阻止或逆转疾病进展,其患病率正在增加。在过去的十年中,越来越多的证据支持这一假设,即原发性脑血管功能障碍启动了一系列事件,导致神经元损伤和随后在AD中观察到的认知能力下降。然而,这些血管缺损的机制及其与神经变性的关系仍然知之甚少。病理学上已知,脑血管功能障碍可诱导淀粉样蛋白-β (Aβ)的沉积,这是一种淀粉样蛋白和有毒肽,反过来导致脑血管变性。哺乳动物细胞通过未折叠蛋白反应、泛素-蛋白酶体系统和自噬等多种机制调节蛋白质静止和细胞内细胞器的功能;然而,当这些机制不能补偿体内平衡的扰动时,细胞通过凋亡经历程序性死亡。这篇综述总结了最近的研究,这些研究共同将AD中蛋白质质量控制通路的失调与大脑血管内皮细胞的功能障碍联系起来,从而支持了一种假设,即AD症状化的脑血管变化是蛋白质抑制网络和内皮细胞激活的恶性、进行性失败的基础。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The role of proteotoxic stress in vascular dysfunction in the pathogenesis of Alzheimer’s disease
Abstract Alzheimer’s disease (AD) is the principal cause of dementia in the elderly; however, its prevalence is increasing due to the fact that current pharmaceuticals used to manage the symptoms are not capable of preventing, halting, or reversing disease progression. In the last decade, evidence has accumulated to support the hypothesis that a primary cerebral vascular dysfunction initiates the cascade of events that leads to neuronal injury and the subsequent cognitive decline observed in AD. The mechanisms underlying these vascular defects and their relationship with neurodegeneration are still poorly understood however. It is pathologically known that cerebrovascular dysfunctions can induce the deposition of amyloid-β (Aβ), an amyloidogenic and toxic peptide that in turn causes cerebrovascular degeneration. Mammalian cells regulate proteostasis and the functioning of intracellular organelles through diverse mechanisms such as the Unfolded Protein Response, the Ubiquitin-Proteasome System and autophagy; however, when these mechanisms cannot compensate for perturbations in homeostasis, the cell undergoes programmed death via apoptosis. This review summarizes recent studies that together correlate the deregulation of protein quality control pathways with dysfunction of vascular endothelial cells of the brain in AD, thus supporting the hypothesis that it is the vicious, progressive failure of the proteostatic network and endothelial activation that underlies the cerebrovascular changes that symptomize AD.
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