Haffner Christof
Institute for Stroke and Dementia Research, Klinikum der Universität München, Ludwig-Maximilians-Universität München, Munich, Germany.
Front Neurosci. 2019 Nov 15;13:1142. doi: 10.3389/fnins.2019.01142. eCollection 2019.
Maintaining the homeostasis of proteins (proteostasis) by controlling their synthesis, folding and degradation is a central task of cells and tissues. The gradual decline of the capacity of the various proteostasis machineries, frequently in combination with their overload through mutated, aggregation-prone proteins, is increasingly recognized as an important catalyst of age-dependent pathologies in the brain, most prominently neurodegenerative disorders. A dysfunctional proteostasis might also contribute to neurovascular disease as indicated by the occurrence of excessive protein accumulation or massive extracellular matrix expansion within vessel walls in conditions such as cerebral small vessel disease (SVD), a major cause of ischemic stroke, and cerebral amyloid angiopathy. Recent advances in brain vessel isolation techniques and mass spectrometry methodology have facilitated the analysis of cerebrovascular proteomes and fueled efforts to determine the proteomic signatures associated with neurovascular disease. In several studies in humans and mice considerable differences between healthy and diseased vessel proteomes were observed, emphasizing the critical contribution of an impaired proteostasis to disease pathogenesis. These findings highlight the important role of a balanced proteostasis for cerebrovascular health.
通过控制蛋白质的合成、折叠和降解来维持蛋白质稳态(proteostasis)是细胞和组织的核心任务。各种蛋白质稳态机制的能力逐渐下降,且常常伴随着因突变的、易于聚集的蛋白质导致的过载,这日益被认为是大脑中与年龄相关疾病的重要催化剂,最显著的是神经退行性疾病。功能失调的蛋白质稳态也可能导致神经血管疾病,如在脑小血管疾病(SVD,缺血性中风的主要原因)和脑淀粉样血管病等情况下,血管壁内出现过多的蛋白质积累或大量细胞外基质扩张所表明的那样。脑血管分离技术和质谱方法的最新进展促进了脑血管蛋白质组的分析,并推动了确定与神经血管疾病相关的蛋白质组特征的努力。在多项针对人类和小鼠的研究中,观察到健康和患病血管蛋白质组之间存在相当大的差异,强调了蛋白质稳态受损对疾病发病机制的关键作用。这些发现突出了平衡的蛋白质稳态对脑血管健康的重要作用。
