Upregulation of autophagy genes and the unfolded protein response in human heart failure.

IF 0.2 Q4 MEDICINE, RESEARCH & EXPERIMENTAL
International journal of clinical and experimental medicine Pub Date : 2017-01-01 Epub Date: 2017-01-30
Brian C Jensen, Scott J Bultman, Darcy Holley, Wei Tang, Gustaaf de Ridder, Salvatore Pizzo, Dawn Bowles, Monte S Willis
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Abstract

The cellular environment of the mammalian heart constantly is challenged with environmental and intrinsic pathological insults, which affect the proper folding of proteins in heart failure. The effects of damaged or misfolded proteins on the cell can be profound and result in a process termed "proteotoxicity". While proteotoxicity is best known for its role in mediating the pathogenesis of neurodegenerative diseases such as Alzheimer's disease, its role in human heart failure also has been recognized. The UPR involves three branches, including PERK, ATF6, and IRE1. In the presence of a misfolded protein, the GRP78 molecular chaperone that normally interacts with the receptors PERK, ATF6, and IRE-1 in the endoplasmic reticulum detaches to attempt to stabilize the protein. Mouse models of cardiac hypertrophy, ischemia, and heart failure demonstrate increases in activity of all three branches after removing GRP78 from these internal receptors. Recent studies have linked elevated PERK and CHOP in vitro with regulation of ion channels linked with human systolic heart failure. With this in mind, we specifically investigated ventricular myocardium from 10 patients with a history of conduction system defects or arrhythmias for expression of UPR and autophagy genes compared to myocardium from non-failing controls. We identified elevated Chop, Atf3, and Grp78 mRNA, along with XBP-1-regulated Cebpa mRNA, indicative of activation of the UPR in human heart failure with arrhythmias.

Abstract Image

Abstract Image

人类心力衰竭中自噬基因和未折叠蛋白反应的上调。
哺乳动物心脏的细胞环境不断受到环境和内在病理损伤的挑战,这些损伤会影响心衰患者蛋白质的正常折叠。受损或折叠错误的蛋白质会对细胞产生深远的影响,并导致一种被称为 "蛋白质毒性 "的过程。蛋白质毒性因其在阿尔茨海默病等神经退行性疾病的发病机制中的介导作用而最为人熟知,但它在人类心力衰竭中的作用也已得到认可。UPR 涉及三个分支,包括 PERK、ATF6 和 IRE1。在出现折叠错误的蛋白质时,通常与内质网中的受体 PERK、ATF6 和 IRE-1 相互作用的 GRP78 分子伴侣会脱离,试图稳定蛋白质。心脏肥大、缺血和心力衰竭的小鼠模型显示,从这些内部受体移除 GRP78 后,所有三个分支的活性都会增加。最近的研究表明,体外 PERK 和 CHOP 的升高与调节与人类收缩性心力衰竭有关的离子通道有关。有鉴于此,我们特别研究了 10 名有传导系统缺陷或心律失常病史的患者的心室心肌,与非衰竭对照组心肌相比,研究了 UPR 和自噬基因的表达。我们发现 Chop、Atf3 和 Grp78 mRNA 以及 XBP-1 调控的 Cebpa mRNA 升高,这表明 UPR 在伴有心律失常的人类心衰中被激活。
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