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人 ERO1alpha 蛋白与蛋白二硫键异构酶(PDI)之间的环状和特异性二硫键交换的分子基础。

Molecular bases of cyclic and specific disulfide interchange between human ERO1alpha protein and protein-disulfide isomerase (PDI).

机构信息

Division of Protein Chemistry, Post-Genome Science Center, Medical Institute of Bioregulation, Kyushu University, Higashi-ku, Fukuoka, Japan.

出版信息

J Biol Chem. 2011 May 6;286(18):16261-71. doi: 10.1074/jbc.M111.231357. Epub 2011 Mar 11.

DOI:10.1074/jbc.M111.231357
PMID:21398518
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3091233/
Abstract

In the endoplasmic reticulum (ER) of human cells, ERO1α and protein-disulfide isomerase (PDI) constitute one of the major electron flow pathways that catalyze oxidative folding of secretory proteins. Specific and limited PDI oxidation by ERO1α is essential to avoid ER hyperoxidation. To investigate how ERO1α oxidizes PDI selectively among more than 20 ER-resident PDI family member proteins, we performed docking simulations and systematic biochemical analyses. Our findings reveal that a protruding β-hairpin of ERO1α specifically interacts with the hydrophobic pocket present in the redox-inactive PDI b'-domain through the stacks between their aromatic residues, leading to preferred oxidation of the C-terminal PDI a'-domain. ERO1α associated preferentially with reduced PDI, explaining the stepwise disulfide shuttle mechanism, first from ERO1α to PDI and then from oxidized PDI to an unfolded polypeptide bound to its hydrophobic pocket. The interaction of ERO1α with ERp44, another PDI family member protein, was also analyzed. Notably, ERO1α-dependent PDI oxidation was inhibited by a hyperactive ERp44 mutant that lacks the C-terminal tail concealing the substrate-binding hydrophobic regions. The potential ability of ERp44 to inhibit ERO1α activity may suggest its physiological role in ER redox and protein homeostasis.

摘要

在人类细胞的内质网 (ER) 中,ERO1α 和蛋白二硫键异构酶 (PDI) 构成了主要的电子流途径之一,可催化分泌蛋白的氧化折叠。ERO1α 对 PDI 的特异性和有限氧化对于避免 ER 过度氧化至关重要。为了研究 ERO1α 如何在超过 20 种 ER 驻留的 PDI 家族成员蛋白中选择性地氧化 PDI,我们进行了对接模拟和系统的生化分析。我们的研究结果表明,ERO1α 的一个突出的 β-发夹通过其芳香族残基之间的堆积,与无氧化还原活性的 PDI b'-结构域中的疏水性口袋特异性相互作用,从而导致 C 端 PDI a'-结构域优先氧化。ERO1α 优先与还原型 PDI 结合,解释了逐步的二硫键穿梭机制,首先是从 ERO1α 到 PDI,然后是从氧化的 PDI 到与其疏水性口袋结合的未折叠多肽。我们还分析了 ERO1α 与另一种 PDI 家族成员蛋白 ERp44 的相互作用。值得注意的是,缺乏掩盖底物结合疏水区的 C 端尾巴的 ERp44 突变体抑制了依赖于 ERO1α 的 PDI 氧化。ERp44 抑制 ERO1α 活性的潜在能力可能表明其在 ER 氧化还原和蛋白质动态平衡中的生理作用。

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Two endoplasmic reticulum PDI peroxidases increase the efficiency of the use of peroxide during disulfide bond formation.两种内质网 PDIPeroxidases 在二硫键形成过程中提高了过氧化物的利用效率。
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Oxidative protein folding by an endoplasmic reticulum-localized peroxiredoxin.内质网定位过氧化物酶氧化蛋白折叠。
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Structural basis of protein disulfide bond generation in the cell.细胞中蛋白质二硫键生成的结构基础。
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Redox-dependent domain rearrangement of protein disulfide isomerase from a thermophilic fungus.热嗜真菌蛋白二硫键异构酶的氧化还原依赖结构域重排。
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The reduction potential of the active site disulfides of human protein disulfide isomerase limits oxidation of the enzyme by Ero1α.人蛋白二硫键异构酶活性部位二硫键的还原电势限制了 Ero1α 对该酶的氧化。
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