重组α-突触核蛋白中形成共价二酪氨酸二聚体。

Formation of covalent di-tyrosine dimers in recombinant α-synuclein.

作者信息

van Maarschalkerweerd A, Pedersen M N, Peterson H, Nilsson M, Nguyen Ttt, Skamris T, Rand K, Vetri V, Langkilde A E, Vestergaard B

机构信息

Department of Drug Design and Pharmacology; University of Copenhagen ; Copenhagen, Denmark.

Department of Pharmacy; University of Copenhagen ; Copenhagen, Denmark.

出版信息

Intrinsically Disord Proteins. 2015 Oct 19;3(1):e1071302. doi: 10.1080/21690707.2015.1071302. eCollection 2015.

DOI:10.1080/21690707.2015.1071302

PMID:28232892

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5314896/

Abstract

Parkinson's disease is associated with fibril deposition in the diseased brain. Misfolding events of the intrinsically disordered synaptic protein α-synuclein are suggested to lead to the formation of transient oligomeric and cytotoxic species. The etiology of Parkinson's disease is further associated with mitochondrial dysfunction and formation of reactive oxygen species. Oxidative stress causes chemical modification of native α-synuclein, plausibly further influencing misfolding events. Here, we present evidence for the spontaneous formation of covalent di-tyrosine α-synuclein dimers in standard recombinant protein preparations, induced without extrinsic oxidative or nitrative agents. The dimers exhibit no secondary structure but advanced SAXS studies reveal an increased structural definition, resulting in a more hydrophobic micro-environment than the highly disordered monomer. Accordingly, monomers and dimers follow distinct fibrillation pathways.

摘要

帕金森病与患病大脑中的纤维沉积有关。内在无序的突触蛋白α-突触核蛋白的错误折叠事件被认为会导致瞬时寡聚体和细胞毒性物质的形成。帕金森病的病因还与线粒体功能障碍和活性氧的形成有关。氧化应激会导致天然α-突触核蛋白发生化学修饰，可能进一步影响错误折叠事件。在此，我们提供证据表明，在标准重组蛋白制剂中，无需外在氧化或硝化剂诱导，即可自发形成共价二酪氨酸α-突触核蛋白二聚体。这些二聚体没有二级结构，但先进的小角X射线散射研究表明其结构清晰度增加，导致形成比高度无序的单体更疏水的微环境。因此，单体和二聚体遵循不同的纤维化途径。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5ef5/5314896/49eb85762dc5/kidp-03-01-1071302-g001.jpg

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重组α-突触核蛋白中形成共价二酪氨酸二聚体。

Formation of covalent di-tyrosine dimers in recombinant α-synuclein.

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