一种由PDI催化的硫醇-二硫键转换调节人Ero1产生过氧化氢的过程。

A PDI-catalyzed thiol-disulfide switch regulates the production of hydrogen peroxide by human Ero1.

作者信息

Ramming Thomas, Okumura Masaki, Kanemura Shingo, Baday Sefer, Birk Julia, Moes Suzette, Spiess Martin, Jenö Paul, Bernèche Simon, Inaba Kenji, Appenzeller-Herzog Christian

机构信息

Division of Molecular & Systems Toxicology, Department of Pharmaceutical Sciences, University of Basel, 4056 Basel, Switzerland.

Institute of Multidisciplinary Research for Advanced Materials, Tohoku University, Sendai 980-8577, Japan.

出版信息

Free Radic Biol Med. 2015 Jun;83:361-72. doi: 10.1016/j.freeradbiomed.2015.02.011. Epub 2015 Feb 17.

DOI:10.1016/j.freeradbiomed.2015.02.011

PMID:25697776

Abstract

Oxidative folding in the endoplasmic reticulum (ER) involves ER oxidoreductin 1 (Ero1)-mediated disulfide formation in protein disulfide isomerase (PDI). In this process, Ero1 consumes oxygen (O2) and releases hydrogen peroxide (H2O2), but none of the published Ero1 crystal structures reveal any potential pathway for entry and exit of these reactants. We report that additional mutation of the Cys(208)-Cys(241) disulfide in hyperactive Ero1α (Ero1α-C104A/C131A) potentiates H2O2 production, ER oxidation, and cell toxicity. This disulfide clamps two helices that seal the flavin cofactor where O2 is reduced to H2O2. Through its carboxyterminal active site, PDI unlocks this seal by forming a Cys(208)/Cys(241)-dependent mixed-disulfide complex with Ero1α. The H2O2-detoxifying glutathione peroxidase 8 also binds to the Cys(208)/Cys(241) loop region. Supported by O2 diffusion simulations, these data describe the first enzymatically controlled O2 access into a flavoprotein active site, provide molecular-level understanding of Ero1α regulation and H2O2 production/detoxification, and establish the deleterious consequences of constitutive Ero1 activity.

摘要

内质网（ER）中的氧化折叠涉及内质网氧化还原酶1（Ero1）介导的蛋白质二硫键异构酶（PDI）中二硫键的形成。在此过程中，Ero1消耗氧气（O₂）并释放过氧化氢（H₂O₂），但已发表的所有Ero1晶体结构均未揭示这些反应物进出的任何潜在途径。我们报道，在高活性Ero1α（Ero1α-C104A/C131A）中，Cys(208)-Cys(241)二硫键的额外突变增强了H₂O₂的产生、内质网氧化和细胞毒性。该二硫键夹住两个螺旋，这些螺旋封闭了黄素辅因子，在此O₂被还原为H₂O₂。通过其羧基末端活性位点，PDI通过与Ero1α形成依赖于Cys(208)/Cys(241)的混合二硫键复合物来打开这个封闭结构。H₂O₂解毒酶谷胱甘肽过氧化物酶8也与Cys(208)/Cys(241)环区域结合。在O₂扩散模拟的支持下，这些数据描述了第一个酶促控制的O₂进入黄素蛋白活性位点的过程，提供了对Ero1α调节以及H₂O₂产生/解毒的分子水平理解，并确定了组成型Ero1活性的有害后果。

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一种由PDI催化的硫醇-二硫键转换调节人Ero1产生过氧化氢的过程。

A PDI-catalyzed thiol-disulfide switch regulates the production of hydrogen peroxide by human Ero1.

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