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七次跨膜蛋白 2(Siah2)蛋白是核因子红细胞 2 相关因子 2(Nrf2)的调节蛋白。

Seven in absentia homolog 2 (Siah2) protein is a regulator of NF-E2-related factor 2 (Nrf2).

机构信息

Research Center for Environmental Bioscience and Department of Bioscience, School of Science and Technology, Kwansei Gakuin University, 2-1 Gakuen, Sanda, Hyogo 669 1337, Japan.

出版信息

J Biol Chem. 2013 Jun 21;288(25):18393-405. doi: 10.1074/jbc.M112.438762. Epub 2013 May 3.

DOI:10.1074/jbc.M112.438762
PMID:23645672
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3689981/
Abstract

Under pathological conditions such as ischemia-reperfusion, Nrf2 acts as a key regulator of cellular oxidative response. Provided that Nrf2 is sensitive to hypoxia during ischemia, Nrf2 may affect reactive oxygen species metabolism during reoxygenation. In this study, hypoxia suppressed Nrf2 protein, and its hypoxic suppression was not recovered with knockdown of the Nrf2 repressor Keap1. Moreover, an Nrf2 mutant lacking the Keap1 binding domain was suppressed under hypoxia, suggesting that Keap1 does not contribute to hypoxic Nrf2 suppression. HIF-1α and Siah2 are both key regulators of hypoxic responses. Hypoxia induced the Siah2 protein. Although inhibition or knockdown of Siah2 prevented the suppression of Nrf2, knockdown of HIF-1α did not. Moreover, Siah2 interacted with Nrf2 through a binding motif, suggesting that Siah2 contributes to the suppression of Nrf2. Some cytosolic kinases also play important roles in Nrf2 regulation. In this study, PKC phosphorylates serine residues of Nrf2 during hypoxia. Knockdown of Siah2 rescued hypoxic decreases in an Nrf2 mutant that mimicked phosphorylation at serine 40 or lacked this phosphorylation site, suggesting that Siah2 contributes to the degradation of Nrf2 irrespective of its phosphorylation status. Moreover, knockdown of Siah2 attenuated ubiquitination of the Nrf2 mutant, suggesting that association of Siah2 with Nrf2 causes proteasome-mediated degradation of Nrf2.

摘要

在缺血再灌注等病理条件下,Nrf2 作为细胞氧化应激反应的关键调节因子发挥作用。假设 Nrf2 在缺血期间对缺氧敏感,Nrf2 可能会影响再氧合期间的活性氧代谢。在这项研究中,缺氧抑制了 Nrf2 蛋白,并且其缺氧抑制作用不会因 Nrf2 抑制剂 Keap1 的敲低而恢复。此外,缺乏 Keap1 结合域的 Nrf2 突变体在缺氧下被抑制,表明 Keap1 不参与缺氧诱导的 Nrf2 抑制。HIF-1α 和 Siah2 都是缺氧反应的关键调节因子。缺氧诱导了 Siah2 蛋白。尽管 Siah2 的抑制或敲低阻止了 Nrf2 的抑制,但 HIF-1α 的敲低却没有。此外,Siah2 通过结合基序与 Nrf2 相互作用,表明 Siah2 有助于 Nrf2 的抑制。一些细胞质激酶也在 Nrf2 调节中发挥重要作用。在这项研究中,PKC 在缺氧期间磷酸化 Nrf2 的丝氨酸残基。Siah2 的敲低挽救了 Nrf2 突变体在缺氧时的减少,该突变体模拟了丝氨酸 40 位的磷酸化或缺乏该磷酸化位点,表明 Siah2 有助于 Nrf2 的降解,而与磷酸化状态无关。此外,Siah2 的敲低减弱了 Nrf2 突变体的泛素化,表明 Siah2 与 Nrf2 的结合导致 Nrf2 的蛋白酶体介导的降解。

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