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本文引用的文献

1
Genesis of mammalian prions: from non-infectious amyloid fibrils to a transmissible prion disease.哺乳动物朊病毒的起源:从无感染性的淀粉样纤维到可传播的朊病毒疾病。
PLoS Pathog. 2011 Dec;7(12):e1002419. doi: 10.1371/journal.ppat.1002419. Epub 2011 Dec 1.
2
Neuroprotective and neurotoxic signaling by the prion protein.朊蛋白的神经保护和神经毒性信号传导
Top Curr Chem. 2011;305:101-19. doi: 10.1007/128_2011_160.
3
Dynamic diagnosis of familial prion diseases supports the β2-α2 loop as a universal interference target.家族性朊病毒病的动态诊断支持β2-α2 环作为通用干扰靶点。
PLoS One. 2011 Apr 28;6(4):e19093. doi: 10.1371/journal.pone.0019093.
4
Familial CJD associated PrP mutants within transmembrane region induced Ctm-PrP retention in ER and triggered apoptosis by ER stress in SH-SY5Y cells.跨膜区家族性 CJD 相关 PrP 突变体诱导 Ctm-PrP 在 ER 中滞留,并通过 ER 应激在 SH-SY5Y 细胞中引发细胞凋亡。
PLoS One. 2011 Jan 27;6(1):e14602. doi: 10.1371/journal.pone.0014602.
5
Compartment-restricted biotinylation reveals novel features of prion protein metabolism in vivo.局限区生物素化揭示了朊病毒蛋白代谢在体内的新特征。
Mol Biol Cell. 2010 Dec;21(24):4325-37. doi: 10.1091/mbc.E10-09-0742. Epub 2010 Oct 27.
6
Pathogenic mutations in the hydrophobic core of the human prion protein can promote structural instability and misfolding.人朊病毒蛋白疏水核心中的致病性突变可促进结构不稳定和错误折叠。
J Mol Biol. 2010 Dec 10;404(4):732-48. doi: 10.1016/j.jmb.2010.09.060. Epub 2010 Oct 7.
7
Protein misfolding and cellular stress: an overview.蛋白质错误折叠与细胞应激:概述
Methods Mol Biol. 2010;648:3-23. doi: 10.1007/978-1-60761-756-3_1.
8
Oxidation of Helix-3 methionines precedes the formation of PK resistant PrP.螺旋 3 位蛋氨酸的氧化先于 PK 抗性 PrP 的形成。
PLoS Pathog. 2010 Jul 1;6(7):e1000977. doi: 10.1371/journal.ppat.1000977.
9
The structural intolerance of the PrP alpha-fold for polar substitution of the helix-3 methionines.PrP α-螺旋 3 位蛋氨酸的极性取代对结构的不包容性。
Cell Mol Life Sci. 2010 Aug;67(16):2825-38. doi: 10.1007/s00018-010-0363-1. Epub 2010 May 9.
10
Discrimination between alternate membrane protein topologies in living cells using GFP/YFP tagging and pH exchange.利用 GFP/YFP 标记和 pH 交换在活细胞中区分交替膜蛋白拓扑结构。
Cell Mol Life Sci. 2010 Oct;67(19):3345-54. doi: 10.1007/s00018-010-0386-7. Epub 2010 May 8.

朊病毒蛋白氧化折叠的失败导致了毒性跨膜构象的形成。

Failure of prion protein oxidative folding guides the formation of toxic transmembrane forms.

机构信息

Instituto Química-Física Rocasolano, Consejo Superior de Investigaciones Científicas, Serrano 119, 28006 Madrid, Spain.

出版信息

J Biol Chem. 2012 Oct 26;287(44):36693-701. doi: 10.1074/jbc.M112.398776. Epub 2012 Sep 6.

DOI:10.1074/jbc.M112.398776
PMID:22955286
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3481273/
Abstract

The mechanism by which pathogenic mutations in the globular domain of the cellular prion protein (PrP(C)) increase the likelihood of misfolding and predispose to diseases is not yet known. Differences in the evidences provided by structural and metabolic studies of these mutants suggest that in vivo folding could be playing an essential role in their pathogenesis. To address this role, here we use the single or combined M206S and M213S artificial mutants causing labile folds and express them in cells. We find that these mutants are highly toxic, fold as transmembrane PrP, and lack the intramolecular disulfide bond. When the mutations are placed in a chain with impeded transmembrane PrP formation, toxicity is rescued. These results suggest that oxidative folding impairment, as on aging, can be fundamental for the genesis of intracellular neurotoxic intermediates key in prion neurodegenerations.

摘要

导致细胞朊病毒蛋白 (PrP(C)) 球状结构域中致病性突变增加错误折叠可能性并易患疾病的机制尚不清楚。这些突变体的结构和代谢研究提供的证据差异表明,体内折叠可能在其发病机制中发挥着重要作用。为了解决这个问题,我们在这里使用单或组合的 M206S 和 M213S 人工突变体引起不稳定折叠,并在细胞中表达它们。我们发现这些突变体具有高度毒性,作为跨膜 PrP 折叠,并且缺乏分子内二硫键。当突变放置在阻碍跨膜 PrP 形成的链中时,毒性得到挽救。这些结果表明,氧化折叠损伤,如衰老,可能是细胞内神经毒性中间产物形成的关键,这些中间产物在朊病毒神经退行性变中起关键作用。