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内质网定位过氧化物酶氧化蛋白折叠。

Oxidative protein folding by an endoplasmic reticulum-localized peroxiredoxin.

机构信息

Kimmel Center for Biology and Medicine at the Skirball Institute, New York University School of Medicine, New York, NY 10016, USA.

出版信息

Mol Cell. 2010 Dec 10;40(5):787-97. doi: 10.1016/j.molcel.2010.11.010.

DOI:10.1016/j.molcel.2010.11.010
PMID:21145486
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3026605/
Abstract

Endoplasmic reticulum (ER) oxidation 1 (ERO1) transfers disulfides to protein disulfide isomerase (PDI) and is essential for oxidative protein folding in simple eukaryotes such as yeast and worms. Surprisingly, ERO1-deficient mammalian cells exhibit only a modest delay in disulfide bond formation. To identify ERO1-independent pathways to disulfide bond formation, we purified PDI oxidants with a trapping mutant of PDI. Peroxiredoxin IV (PRDX4) stood out in this list, as the related cytosolic peroxiredoxins are known to form disulfides in the presence of hydroperoxides. Mouse embryo fibroblasts lacking ERO1 were intolerant of PRDX4 knockdown. Introduction of wild-type mammalian PRDX4 into the ER rescued the temperature-sensitive phenotype of an ero1 yeast mutation. In the presence of an H(2)O(2)-generating system, purified PRDX4 oxidized PDI and reconstituted oxidative folding of RNase A. These observations implicate ER-localized PRDX4 in a previously unanticipated, parallel, ERO1-independent pathway that couples hydroperoxide production to oxidative protein folding in mammalian cells.

摘要

内质网氧化 1 (ERO1) 将二硫键转移到蛋白质二硫键异构酶 (PDI) 上,对于酵母和蠕虫等简单真核生物的氧化蛋白折叠至关重要。令人惊讶的是,ERO1 缺陷型哺乳动物细胞中二硫键的形成仅略有延迟。为了鉴定 ERO1 独立的二硫键形成途径,我们使用 PDI 的捕获突变体纯化了 PDI 氧化剂。过氧化物酶 IV (PRDX4) 在这个列表中脱颖而出,因为已知相关的胞质过氧化物酶在存在过氧化物的情况下形成二硫键。缺乏 ERO1 的小鼠胚胎成纤维细胞不能耐受 PRDX4 的敲低。将野生型哺乳动物 PRDX4 导入 ER 中,挽救了 ero1 酵母突变的温度敏感表型。在 H2O2 生成系统的存在下,纯化的 PRDX4 氧化 PDI 并重新构成 RNA 酶 A 的氧化折叠。这些观察结果表明 ER 定位的 PRDX4 参与了一个以前未预料到的、平行的、不依赖 ERO1 的途径,该途径将过氧化物的产生与哺乳动物细胞中的氧化蛋白折叠偶联起来。

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