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能量学与内质网应激的相互作用加剧了酵母中阿尔茨海默病淀粉样β蛋白(Aβ)的毒性。

Interplay of Energetics and ER Stress Exacerbates Alzheimer's Amyloid-β (Aβ) Toxicity in Yeast.

作者信息

Chen Xin, Bisschops Markus M M, Agarwal Nisha R, Ji Boyang, Shanmugavel Kumaravel P, Petranovic Dina

机构信息

Division of Systems and Synthetic Biology, Department of Biology and Biological Engineering, Chalmers University of TechnologyGothenburg, Sweden.

Division of Chemical Biology, Department of Biology and Biological Engineering, Chalmers University of TechnologyGothenburg, Sweden.

出版信息

Front Mol Neurosci. 2017 Jul 27;10:232. doi: 10.3389/fnmol.2017.00232. eCollection 2017.

DOI:10.3389/fnmol.2017.00232
PMID:28798664
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5529408/
Abstract

Alzheimer's disease (AD) is a progressive neurodegeneration. Oligomers of amyloid-β peptides (Aβ) are thought to play a pivotal role in AD pathogenesis, yet the mechanisms involved remain unclear. Two major isoforms of Aβ associated with AD are Aβ40 and Aβ42, the latter being more toxic and prone to form oligomers. Here, we took a systems biology approach to study two humanized yeast AD models which expressed either Aβ40 or Aβ42 in bioreactor cultures. Strict control of oxygen availability and culture pH, strongly affected chronological lifespan and reduced variations during cell growth. Reduced growth rates and biomass yields were observed upon Aβ42 expression, indicating a redirection of energy from growth to maintenance. Quantitative physiology analyses furthermore revealed reduced mitochondrial functionality and ATP generation in Aβ42 expressing cells, which matched with observed aberrant mitochondrial structures. Genome-wide expression level analysis showed that Aβ42 expression triggered strong ER stress and unfolded protein responses. Equivalent expression of Aβ40, however, induced only mild ER stress, which resulted in hardly affected physiology. Using AD yeast models in well-controlled cultures strengthened our understanding on how cells translate different Aβ toxicity signals into particular cell fate programs, and further enhance their potential as a discovery platform to identify possible therapies.

摘要

阿尔茨海默病(AD)是一种进行性神经退行性疾病。淀粉样β肽(Aβ)寡聚体被认为在AD发病机制中起关键作用,但其涉及的机制仍不清楚。与AD相关的Aβ的两种主要异构体是Aβ40和Aβ42,后者毒性更强,更容易形成寡聚体。在这里,我们采用系统生物学方法研究了两种在生物反应器培养物中表达Aβ40或Aβ42的人源化酵母AD模型。严格控制氧气供应和培养pH值,强烈影响时序寿命并减少细胞生长过程中的变化。在表达Aβ42时观察到生长速率和生物量产量降低,表明能量从生长转向维持。定量生理学分析进一步揭示了表达Aβ42的细胞中线粒体功能和ATP生成减少,这与观察到的异常线粒体结构相匹配。全基因组表达水平分析表明,Aβ42表达引发强烈的内质网应激和未折叠蛋白反应。然而,Aβ40的等效表达仅诱导轻度内质网应激,对生理学影响很小。在严格控制的培养物中使用AD酵母模型加强了我们对细胞如何将不同的Aβ毒性信号转化为特定细胞命运程序的理解,并进一步提高了它们作为发现可能疗法的发现平台的潜力。

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本文引用的文献

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