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人 Ero1α 的晶体结构揭示了 PDI 受调控和靶向氧化的机制。

Crystal structures of human Ero1α reveal the mechanisms of regulated and targeted oxidation of PDI.

机构信息

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

出版信息

EMBO J. 2010 Oct 6;29(19):3330-43. doi: 10.1038/emboj.2010.222. Epub 2010 Sep 10.

DOI:10.1038/emboj.2010.222
PMID:20834232
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2957217/
Abstract

In the endoplasmic reticulum (ER) of eukaryotic cells, Ero1 flavoenzymes promote oxidative protein folding through protein disulphide isomerase (PDI), generating reactive oxygen species (hydrogen peroxide) as byproducts. Therefore, Ero1 activity must be strictly regulated to avoid futile oxidation cycles in the ER. Although regulatory mechanisms restraining Ero1α activity ensure that not all PDIs are oxidized, its specificity towards PDI could allow other resident oxidoreductases to remain reduced and competent to carry out isomerization and reduction of protein substrates. In this study, crystal structures of human Ero1α were solved in its hyperactive and inactive forms. Our findings reveal that human Ero1α modulates its oxidative activity by properly positioning regulatory cysteines within an intrinsically flexible loop, and by fine-tuning the electron shuttle ability of the loop through disulphide rearrangements. Specific PDI targeting is guaranteed by electrostatic and hydrophobic interactions of Ero1α with the PDI b'-domain through its substrate-binding pocket. These results reveal the molecular basis of the regulation and specificity of protein disulphide formation in human cells.

摘要

在内质网 (ER) 中,Ero1 黄素酶通过蛋白质二硫异构酶 (PDI) 促进氧化蛋白质折叠,产生活性氧物种 (过氧化氢) 作为副产物。因此,Ero1 活性必须受到严格控制,以避免 ER 中无效的氧化循环。尽管限制 Ero1α 活性的调节机制确保并非所有 PDI 都被氧化,但它对 PDI 的特异性允许其他驻留的氧化还原酶保持还原状态,并能够进行异构化和蛋白质底物的还原。在这项研究中,我们解析了人 Ero1α 的高活性和非活性形式的晶体结构。我们的发现表明,人 Ero1α 通过在一个固有灵活的环内正确定位调节半胱氨酸,以及通过二硫键重排精细调节环的电子穿梭能力,来调节其氧化活性。Ero1α 通过其底物结合口袋与 PDI b'- 结构域的静电和疏水相互作用,确保了对特定 PDI 的靶向。这些结果揭示了人类细胞中二硫键形成的调控和特异性的分子基础。

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