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酵母细胞中的朊病毒聚集体结构由Hsp104-Hsp110解聚酶机制决定。

Prion aggregate structure in yeast cells is determined by the Hsp104-Hsp110 disaggregase machinery.

作者信息

O'Driscoll Jonathan, Clare Daniel, Saibil Helen

机构信息

Crystallography, Department of Biological Sciences, Institute of Structural and Molecular Biology, Birkbeck College, London WC1E 7HX, UK.

Crystallography, Department of Biological Sciences, Institute of Structural and Molecular Biology, Birkbeck College, London WC1E 7HX, UK

出版信息

J Cell Biol. 2015 Oct 12;211(1):145-58. doi: 10.1083/jcb.201505104. Epub 2015 Oct 5.

DOI:10.1083/jcb.201505104
PMID:26438827
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4602031/
Abstract

Prions consist of misfolded proteins that have adopted an infectious amyloid conformation. In vivo, prion biogenesis is intimately associated with the protein quality control machinery. Using electron tomography, we probed the effects of the heat shock protein Hsp70 chaperone system on the structure of a model yeast [PSI+] prion in situ. Individual Hsp70 deletions shift the balance between fibril assembly and disassembly, resulting in a variable shell of nonfibrillar, but still immobile, aggregates at the surface of the [PSI+] prion deposits. Both Hsp104 (an Hsp100 disaggregase) and Sse1 (the major yeast form of Hsp110) were localized to this surface shell of [PSI+] deposits in the deletion mutants. Elevation of Hsp104 expression promoted the appearance of this novel, nonfibrillar form of the prion aggregate. Moreover, Sse1 was found to regulate prion fibril length. Our studies reveal a key role for Sse1 (Hsp110), in cooperation with Hsp104, in regulating the length and assembly state of [PSI+] prion fibrils in vivo.

摘要

朊病毒由折叠错误的蛋白质组成,这些蛋白质呈现出具有传染性的淀粉样构象。在体内,朊病毒的生物合成与蛋白质质量控制机制密切相关。我们利用电子断层扫描技术,原位探究了热休克蛋白Hsp70伴侣系统对模型酵母[PSI+]朊病毒结构的影响。单个Hsp70基因缺失会改变原纤维组装和解聚之间的平衡,导致在[PSI+]朊病毒沉积物表面形成一层可变的非原纤维状但仍不可移动的聚集体外壳。在缺失突变体中,Hsp104(一种Hsp100解聚酶)和Sse1(酵母中Hsp110的主要形式)都定位于[PSI+]沉积物的这一表面外壳。Hsp104表达的升高促进了这种新型非原纤维状朊病毒聚集体的出现。此外,发现Sse1可调节朊病毒原纤维的长度。我们的研究揭示了Sse1(Hsp110)与Hsp104协同作用在体内调节[PSI+]朊病毒原纤维长度和组装状态方面的关键作用。

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Prion aggregate structure in yeast cells is determined by the Hsp104-Hsp110 disaggregase machinery.酵母细胞中的朊病毒聚集体结构由Hsp104-Hsp110解聚酶机制决定。
J Cell Biol. 2015 Oct 12;211(1):145-58. doi: 10.1083/jcb.201505104. Epub 2015 Oct 5.
2
Coordinated Hsp110 and Hsp104 Activities Power Protein Disaggregation in Saccharomyces cerevisiae.热休克蛋白110(Hsp110)与热休克蛋白104(Hsp104)的协同作用驱动酿酒酵母中的蛋白质解聚。
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N-terminal domain of yeast Hsp104 chaperone is dispensable for thermotolerance and prion propagation but necessary for curing prions by Hsp104 overexpression.酵母Hsp104分子伴侣的N端结构域对于耐热性和朊病毒传播并非必需,但对于通过Hsp104过表达治愈朊病毒却是必需的。
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Mutational analysis of Sse1 (Hsp110) suggests an integral role for this chaperone in yeast prion propagation in vivo.Sse1(Hsp110)的突变分析表明,该伴侣蛋白在酵母朊病毒体内传播中起着重要的作用。
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The role of pre-existing aggregates in Hsp104-dependent polyglutamine aggregate formation and epigenetic change of yeast prions.预先存在的聚集体在酵母朊病毒的Hsp104依赖性多聚谷氨酰胺聚集体形成和表观遗传变化中的作用。
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本文引用的文献

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Spatially organized aggregation of misfolded proteins as cellular stress defense strategy.错误折叠蛋白质的空间组织聚集作为细胞应激防御策略。
J Mol Biol. 2015 Apr 10;427(7):1564-74. doi: 10.1016/j.jmb.2015.02.006. Epub 2015 Feb 11.
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Compartment-specific aggregases direct distinct nuclear and cytoplasmic aggregate deposition.特定区室的聚集体引发剂指导不同的核内和胞质聚集体沉积。
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Differential scales of protein quality control.蛋白质质量控制的差异尺度。
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The non-prion SUP35 preexists in large chaperone-containing molecular complexes.非朊病毒 SUP35 预先存在于大型含有伴侣蛋白的分子复合物中。
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Nuclear envelope budding is a response to cellular stress.核膜出芽是细胞应激的一种反应。
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Reversible protein aggregation as cytoprotective mechanism against heat stress.热应激时可逆性蛋白质聚集作为细胞保护机制。
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Purification and biochemical characterization of Msi3, an essential Hsp110 molecular chaperone in Candida albicans.Msi3 的纯化及其生化特性鉴定,Msi3 是白念珠菌中必需的 Hsp110 分子伴侣。
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The N-Terminal Tail of Histone H3 Regulates Copper Homeostasis in Saccharomyces cerevisiae.组蛋白H3的N端尾部调节酿酒酵母中的铜稳态。
Mol Cell Biol. 2021 Jan 25;41(2). doi: 10.1128/MCB.00210-20.
9
Understanding and exploiting interactions between cellular proteostasis pathways and infectious prion proteins for therapeutic benefit.理解和利用细胞蛋白质稳态途径与传染性朊病毒蛋白之间的相互作用,以获得治疗益处。
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A Crucial Role for the Protein Quality Control System in Motor Neuron Diseases.蛋白质质量控制系统在运动神经元疾病中的关键作用
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Cell. 2014 Mar 27;157(1):52-64. doi: 10.1016/j.cell.2014.03.007.
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Hierarchical functional specificity of cytosolic heat shock protein 70 (Hsp70) nucleotide exchange factors in yeast.酵母细胞溶质热休克蛋白 70(Hsp70)核苷酸交换因子的层次功能特异性。
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Hsp104 overexpression cures Saccharomyces cerevisiae [PSI+] by causing dissolution of the prion seeds.热休克蛋白104(Hsp104)的过表达通过引起朊病毒种子的溶解来治愈酿酒酵母的[PSI+]状态。
Eukaryot Cell. 2014 May;13(5):635-47. doi: 10.1128/EC.00300-13. Epub 2014 Mar 14.
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Sorting out the trash: the spatial nature of eukaryotic protein quality control.分拣垃圾:真核生物蛋白质质量控制的空间性质。
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Physiological and environmental control of yeast prions.酵母朊病毒的生理和环境控制。
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Spatial sequestration of misfolded proteins by a dynamic chaperone pathway enhances cellular fitness during stress.通过动态伴侣蛋白途径对错误折叠蛋白进行空间隔离可增强应激状态下细胞的适应能力。
Nat Cell Biol. 2013 Oct;15(10):1231-43. doi: 10.1038/ncb2838. Epub 2013 Sep 15.
10
Mutational analysis of Sse1 (Hsp110) suggests an integral role for this chaperone in yeast prion propagation in vivo.Sse1(Hsp110)的突变分析表明,该伴侣蛋白在酵母朊病毒体内传播中起着重要的作用。
G3 (Bethesda). 2013 Aug 7;3(8):1409-18. doi: 10.1534/g3.113.007112.