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TAK1 Regulates the Nrf2 Antioxidant System Through Modulating p62/SQSTM1

KEAP1型 信号转导衔接蛋白 下调和上调 细胞生物学 氧化应激 磷酸化 死孢子体1 化学 转录因子 抗氧化剂 氧化磷酸化 活性氧 生物化学 自噬 生物 细胞凋亡 基因
作者
Kazunori Hashimoto,Alicia Simmons,Rie Kajino‐Sakamoto,Yoshiaki Tsuji,Jun Ninomiya‐Tsuji
出处
期刊:Antioxidants & Redox Signaling [Mary Ann Liebert, Inc.]
卷期号:25 (17): 953-964 被引量:62
标识
DOI:10.1089/ars.2016.6663
摘要

Aims: Nuclear factor erythroid 2 (NF-E2)-related factor 2 (Nrf2) is the master transcriptional regulator of antioxidant gene expression. On increased oxidative stress, an adaptor for Nrf2 degradation, Kelch-like ECH-associated protein 1 (Keap1), is directly modulated by oxidants in the cytoplasm, which results in stabilization and activation of Nrf2. Nrf2 is also constitutively active, to some extent, in the absence of exogenous oxidative stress. We have previously demonstrated that intestinal epithelium-specific TGF-β-activated kinase 1 (TAK1) deletion downregulates the level of Nrf2 protein, resulting in an increase of reactive oxygen species (ROS) in a mouse model. We aim at determining the mechanism by which TAK1 modulates the level of Nrf2. Results: We found that TAK1 upregulated serine 351 phosphorylation of an autophagic adaptor protein, p62/Sequestosome-1 (SQSTM1), which facilitates interaction between p62/SQSTM1 and Keap1 and subsequent Keap1 degradation. This, ultimately, causes increased Nrf2. Tak1 deficiency reduced the phosphorylation of p62/SQSTM1, resulting in decreased steady-state levels of Nrf2 along with increased Keap1. We also found that this regulation is independent of the canonical redox-mediated Nrf2 activation mechanism. In Tak1-deficient intestinal epithelium, a synthetic phenolic electrophile, butylated hydroxyanisole still effectively upregulated Nrf2 and reduced ROS. Innovation: Our results identify for the first time that TAK1 is a modulator of p62/SQSTM1-dependent Keap1 degradation and maintains the steady state-level of Nrf2. Conclusion: TAK1 regulates Nrf2 through modulation of Keap-p62/SQSTM1 interaction. This regulation is important for homeostatic antioxidant protection in the intestinal epithelium. Antioxid. Redox Signal. 25, 953–964.

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