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N 端多碱性结构域和细胞表面定位是突变型朊病毒蛋白毒性所必需的。

An N-terminal polybasic domain and cell surface localization are required for mutant prion protein toxicity.

机构信息

Department of Biochemistry, Boston University School of Medicine, Boston, Massachusetts 02118, USA.

出版信息

J Biol Chem. 2011 Apr 22;286(16):14724-36. doi: 10.1074/jbc.M110.214973. Epub 2011 Mar 8.

Abstract

There is evidence that alterations in the normal physiological activity of PrP(C) contribute to prion-induced neurotoxicity. This mechanism has been difficult to investigate, however, because the normal function of PrP(C) has remained obscure, and there are no assays available to measure it. We recently reported that cells expressing PrP deleted for residues 105-125 exhibit spontaneous ionic currents and hypersensitivity to certain classes of cationic drugs. Here, we utilize cell culture assays based on these two phenomena to test how changes in PrP sequence and/or cellular localization affect the functional activity of the protein. We report that the toxic activity of Δ105-125 PrP requires localization to the plasma membrane and depends on the presence of a polybasic amino acid segment at the N terminus of PrP. Several different deletions spanning the central region as well as three disease-associated point mutations also confer toxic activity on PrP. The sequence domains identified in our study are also critical for PrP(Sc) formation, suggesting that common structural features may govern both the functional activity of PrP(C) and its conversion to PrP(Sc).

摘要

有证据表明,朊病毒诱导的神经毒性与 PrP(C) 正常生理活性的改变有关。然而,由于 PrP(C) 的正常功能仍不清楚,也没有可用的检测方法来测量它,因此这个机制一直难以研究。我们最近报道称,表达缺失 105-125 个残基的 PrP 的细胞会表现出自发的离子电流,并对某些类阳离子药物敏感。在这里,我们利用基于这两种现象的细胞培养检测方法来测试 PrP 序列和/或细胞定位的变化如何影响蛋白质的功能活性。我们报告称,Δ105-125 PrP 的毒性活性需要定位于质膜,并且依赖于 PrP N 端存在多碱性氨基酸片段。跨越中央区域的几个不同缺失以及三种与疾病相关的点突变也会使 PrP 具有毒性活性。我们研究中确定的序列结构域对于 PrP(Sc) 的形成也是至关重要的,这表明共同的结构特征可能同时控制 PrP(C) 的功能活性及其向 PrP(Sc)的转化。

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