内质网中 H₂O₂ 的产生促进了体内二硫键的形成。

Production of H₂O₂ in the endoplasmic reticulum promotes in vivo disulfide bond formation.

机构信息

Department of Medical Chemistry, Molecular Biology and Pathobiochemistry, Semmelweis University, Budapest, Hungary.

出版信息

Antioxid Redox Signal. 2012 May 15;16(10):1088-99. doi: 10.1089/ars.2011.4221.

DOI:10.1089/ars.2011.4221

PMID:22369093

Abstract

AIMS

Oxidative protein folding in the luminal compartment of endoplasmic reticulum (ER) is thought to be accompanied by the generation of H₂O₂, as side-product of disulfide bond formation. We aimed to examine the role of H₂O₂ produced in the lumen, which on one hand can lead to redox imbalance and hence can contribute to ER stress caused by overproduction of secretory proteins; on the other hand, as an excellent electron acceptor, H₂O₂ might serve as an additional pro-oxidant in physiological oxidative folding.

RESULTS

Stimulation of H₂O₂ production in the hepatic ER resulted in a decrease in microsomal GSH and protein-thiol contents and in a redox shift of certain luminal oxidoreductases in mice. The oxidative effect, accompanied by moderate signs of ER stress and reversible dilation of ER cisternae, was prevented by concomitant reducing treatment. The imbalance also affected the redox state of pyridine nucleotides in the ER. Antibody producing cells artificially engineered with powerful luminal H₂O₂ eliminating system showed diminished secretion of mature antibody polymers, while incomplete antibody monomers/dimers were accumulated and/or secreted.

INNOVATION

Evidence are provided by using in vivo models that hydrogen peroxide can promote disulfide bond formation in the ER.

CONCLUSION

The results indicate that local H₂O₂ production promotes, while quenching of H₂O₂ impairs disulfide formation. The contribution of H₂O₂ to disulfide bond formation previously observed in vitro can be also shown in cellular and in vivo systems.

摘要

目的

内质网（ER）腔内腔氧化蛋白折叠被认为伴随着 H₂O₂的产生，这是形成二硫键的副产物。我们旨在研究腔内腔产生的 H₂O₂的作用，一方面它会导致氧化还原失衡，从而导致由于分泌蛋白过度产生而引起的 ER 应激；另一方面，作为一种优秀的电子受体，H₂O₂可能在生理氧化折叠中充当额外的促氧化剂。

结果

刺激肝 ER 中 H₂O₂的产生会导致小鼠微粒体 GSH 和蛋白巯基含量降低，以及某些腔内腔氧化还原酶的氧化还原状态发生变化。伴随着 ER 内质网轻微扩张的氧化作用，以及可逆转的 ER 内质网扩张，被同时进行的还原处理所阻止。这种失衡还影响了 ER 中吡啶核苷酸的氧化还原状态。人工设计具有强大腔内腔 H₂O₂消除系统的抗体产生细胞表现出成熟抗体聚合物分泌减少，而不完全的抗体单体/二聚体则被积累和/或分泌。

创新点

使用体内模型提供了证据，表明 H₂O₂可以促进 ER 中的二硫键形成。

结论

这些结果表明局部 H₂O₂的产生促进了二硫键的形成，而 H₂O₂的猝灭则会损害二硫键的形成。先前在体外观察到的 H₂O₂对二硫键形成的贡献也可以在细胞和体内系统中得到证明。

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内质网中 H₂O₂ 的产生促进了体内二硫键的形成。

Production of H₂O₂ in the endoplasmic reticulum promotes in vivo disulfide bond formation.

机构信息

出版信息

AIMS

RESULTS

INNOVATION

CONCLUSION

目的

结果

创新点

结论

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