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APP 和 APLP1 的 E2 结构域具有保守的二聚化模式。

The E2 domains of APP and APLP1 share a conserved mode of dimerization.

机构信息

Department of Pharmacology, Yale School of Medicine, New Haven, Connecticut 06520, USA.

出版信息

Biochemistry. 2011 Jun 21;50(24):5453-64. doi: 10.1021/bi101846x. Epub 2011 May 26.

DOI:10.1021/bi101846x
PMID:21574595
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3120129/
Abstract

Amyloid precursor protein (APP) is genetically linked to Alzheimer's disease. APP is a type I membrane protein, and its oligomeric structure is potentially important because this property may play a role in its function or affect the processing of the precursor by the secretases to generate amyloid β-peptide. Several independent studies have shown that APP can form dimers in the cell, but how it dimerizes remains controversial. At least three regions of the precursor, including a centrally located and conserved domain called E2, have been proposed to contribute to dimerization. Here we report two new crystal structures of E2, one from APP and the other from APLP1, a mammalian APP homologue. Comparison with an earlier APP structure, which was determined in a different space group, shows that the E2 domains share a conserved and antiparallel mode of dimerization. Biophysical measurements in solution show that heparin binding induces E2 dimerization. The 2.1 Å resolution electron density map also reveals phosphate ions that are bound to the protein surface. Mutational analysis shows that protein residues interacting with the phosphate ions are also involved in heparin binding. The locations of two of these residues, Arg-369 and His-433, at the dimeric interface suggest a mechanism for heparin-induced protein dimerization.

摘要

淀粉样前体蛋白(APP)与阿尔茨海默病有遗传关联。APP 是一种 I 型膜蛋白,其寡聚结构可能很重要,因为这种性质可能在其功能中发挥作用或影响前体通过分泌酶加工生成淀粉样 β-肽。几项独立的研究表明,APP 可以在细胞中形成二聚体,但它如何二聚化仍存在争议。至少有三个前体区域,包括一个位于中央且保守的称为 E2 的区域,被认为有助于二聚化。在这里,我们报告了 E2 的两个新晶体结构,一个来自 APP,另一个来自 APLP1,一种哺乳动物 APP 同源物。与在不同空间群中确定的早期 APP 结构的比较表明,E2 结构域共享保守的反平行二聚化模式。溶液中的生物物理测量表明,肝素结合诱导 E2 二聚化。2.1 Å 分辨率的电子密度图还揭示了结合在蛋白质表面的磷酸离子。突变分析表明,与磷酸离子相互作用的蛋白质残基也参与肝素结合。这两个残基,Arg-369 和 His-433,位于二聚体界面上,提示了肝素诱导的蛋白质二聚化的机制。

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