Differential effects of divalent cations on elk prion protein fibril formation and stability.

IF 1.9 3区 生物学 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY Prion Pub Date : 2018-01-02 Epub Date: 2018-01-31 DOI:10.1080/19336896.2017.1423187
Daniel Samorodnitsky, Eric M Nicholson
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引用次数: 9

Abstract

Misfolding of the normally folded prion protein of mammals (PrPC) into infectious fibrils causes a variety of diseases, from scrapie in sheep to chronic wasting disease (CWD) in cervids. The misfolded form of PrPC, termed PrPSc, or in this case PrPCWD, interacts with PrPC to create more PrPCWD. This process is not clearly defined but is affected by the presence and interactions of biotic and abiotic cofactors. These include nucleic acids, lipids, glycosylation, pH, and ionic character. PrPC has been shown to act as a copper-binding protein in vivo, though it also binds to other divalents as well. The significance of this action has not been conclusively elucidated. Previous reports have shown that metal binding sites occur throughout the N-terminal region of PrPC. Other cations like manganese have also been shown to affect PrPC abundance in a transcript-independent fashion. Here, we examined the ability of different divalent cations to influence the stability and in vitro conversion of two variants of PrP from elk (L/M132, 26-234). We find that copper and zinc de-stabilize PrP. We also find that PrP M132 exhibits a greater degree of divalent cation induced destabilization than L132. This supports findings that leucine at position 132 confers resistance to CWD, while M132 is susceptible. However, in vitro conversion of PrP is equally suppressed by either copper or zinc, in both L132 and M132 backgrounds. This report demonstrates the complex importance of ionic character on the PrPC folding pathway selection on the route to PrPSc formation.

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二价阳离子对麋鹿朊蛋白原纤维形成及稳定性的差异影响。
正常折叠的哺乳动物朊蛋白(PrPC)错误折叠成感染性原纤维会导致多种疾病,从绵羊的痒病到绵羊的慢性消耗性疾病(CWD)。PrPC的错误折叠形式,称为PrPSc,或在本例中称为PrPCWD,与PrPC相互作用以产生更多的PrPCWD。这个过程没有明确的定义,但受到生物和非生物辅助因子的存在和相互作用的影响。这些包括核酸、脂质、糖基化、pH值和离子特性。PrPC已被证明在体内作为一种铜结合蛋白,尽管它也与其他二价体结合。这一行动的意义还没有得到最终的阐明。先前的报道表明,金属结合位点出现在PrPC的n端区域。其他阳离子如锰也被证明以转录不依赖的方式影响PrPC的丰度。在这里,我们研究了不同的二价阳离子对麋鹿两种PrP变体的稳定性和体外转化的影响(L/M132, 26-234)。我们发现铜和锌会破坏PrP的稳定性。我们还发现PrP M132比L132表现出更大程度的二价阳离子诱导的不稳定。这支持了132位亮氨酸对CWD具有抗性的发现,而M132位亮氨酸对CWD具有易感性。然而,在L132和M132背景下,PrP的体外转化同样受到铜或锌的抑制。该报告证明了离子特性在PrPC折叠途径选择和PrPSc形成过程中的复杂重要性。
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来源期刊
Prion
Prion 生物-生化与分子生物学
CiteScore
5.20
自引率
4.30%
发文量
13
审稿时长
6-12 weeks
期刊介绍: Prion is the first international peer-reviewed open access journal to focus exclusively on protein folding and misfolding, protein assembly disorders, protein-based and structural inheritance. The goal is to foster communication and rapid exchange of information through timely publication of important results using traditional as well as electronic formats. The overriding criteria for publication in Prion are originality, scientific merit and general interest.
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