Cecil B. Pickett scite author profile

A major mechanism in the cellular defense against oxidative or electrophilic stress is activation of the Nrf2-antioxidant response element signaling pathway, which controls the expression of genes whose protein products are involved in the detoxication and elimination of reactive oxidants and electrophilic agents through conjugative reactions and by enhancing cellular antioxidant capacity. At the molecular level, however, the regulatory mechanisms involved in mediating Nrf2 activation are not fully understood. It is well established that Nrf2 activity is controlled, in part, by the cytosolic protein Keap1, but the nature of this pathway and the mechanisms by which Keap1 acts to repress Nrf2 activity remain to be fully characterized and are the topics of discussion in this minireview. In addition, a possible role of the Nrf2-antioxidant response element transcriptional pathway in neuroprotection will also be discussed.

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Regulatory Mechanisms Controlling Gene Expression Mediated by the Antioxidant Response Element

Nguyen¹,

Sherratt²,

Pickett³

2003

Annu. Rev. Pharmacol. Toxicol.

1,137

950

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The expression of genes encoding antioxidative and Phase II detoxification enzymes is induced in cells exposed to electrophilic compounds and phenolic antioxidants. Induction of these enzymes is regulated at the transcriptional level and is mediated by a specific enhancer, the antioxidant response element or ARE, found in the promoter of the enzyme's gene. The transcription factor Nrf2 has been implicated as the central protein that interacts with the ARE to activate gene transcription constitutively or in response to an oxidative stress signal. This review focuses on the molecular mechanisms whereby the transcriptional activation mediated by the interaction between the ARE and NF-E2-related factor 2 (Nrf2) is regulated. Recent studies suggest that the sequence context of the ARE, the nature of the chemical inducers, and the cell type are important for determining the activity of the enhancer in a particular gene.

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Phosphorylation of Nrf2 at Ser-40 by Protein Kinase C Regulates Antioxidant Response Element-mediated Transcription

Huang¹,

Nguyen²,

Pickett³

2002

Journal of Biological Chemistry

935

645

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Nrf2, a basic leucine zipper transcription factor, is an essential activator of the coordinated transcription of genes encoding antioxidant enzymes and phase II detoxifying enzymes through the regulatory sequence termed antioxidant response element (ARE). Recently we reported evidence for the involvement of protein kinase C (PKC) in phosphorylating Nrf2 and triggering its nuclear translocation in response to oxidative stress. We show here that phosphorylation of purified rat Nrf2 by the catalytic subunit of PKC was blocked by a synthetic peptide mimicking one of the potential PKC sites. Accordingly, Nrf2 bearing a Ser to Ala mutation at amino acid 40 (S40A) could not be phosphorylated by PKC. The S40A mutation did not affect in vitro binding of Nrf2/ MafK to the ARE. However, it partially impaired Nrf2 activation of ARE-driven transcription in a reporter gene assay when Keap1 was overexpressed. In vitro transcribed/translated Keap1 could be coimmunoprecipitated with Nrf2. Phosphorylation of wild-type Nrf2 by PKC promoted its dissociation from Keap1, whereas the Nrf2-S40A mutant remained associated. These findings together with our prior studies suggest that the PKC-catalyzed phosphorylation of Nrf2 at Ser-40 is a critical signaling event leading to ARE-mediated cellular antioxidant response. The antioxidant response element (ARE)1 is a regulatory sequence involved in the coordinated transcriptional activation of genes coding for a number of antioxidant enzymes and phase II detoxifying enzymes (1-6). Reactive oxygen species and electrophiles are potent activators of genes containing an ARE, mediated by the basic leucine zipper (bZIP) transcription factor Nrf2 (NF-E2-related factor 2) (7-9). Accumulated evidence from studies of nrf2-null mice has established that Nrf2 is an essential ARE-binding factor involved in both constitutive and inducible gene expression via the ARE (9 -11). An important regulatory step leading to ARE activation is the oxidative stress-induced nuclear translocation of Nrf2, which normally appears to be sequestered in the cytoplasm by the cytoskeletonbinding Keap1 protein (12-14). However, the precise mechanism by which ARE-activating signals reach Nrf2 and cause dissociation of the putative inhibitory Nrf2-Keap1 complex remains unclear.Several protein kinase pathways have been implicated in transducing oxidative stress signals to gene expression mediated through the ARE. A number of reports have addressed a possible role for extracellular signal-regulated kinase (ERK1/2) in ARE activation. The findings have however remained controversial: ERK1/2 has been found to regulate the ARE positively in certain hepatoma cells (15-17) but negatively in others (18). Similarly, p38 MAP (mitogen-activated protein) kinase has also been shown to affect ARE activity, either positively (17,19,20) or negatively (16,21). More recently, phosphatidylinositol 3-kinase and its downstream target Akt/PKB (protein kinase B) have been linked to activation of the ARE in hepatoma (18, 19) and neuroblastoma (22) cell lin...

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Human survivin is negatively regulated by wild-type p53 and participates in p53-dependent apoptotic pathway

Mirza¹,

McGuirk²,

Hockenberry³

et al. 2002

Oncogene

495

418

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Survivin is an inhibitor of apoptosis protein, which is over-expressed in most tumors. Aberrant expression of survivin and loss of wild-type p53 in many tumors prompted us to investigate a possible link between these two events. Here we show that wild-type p53 represses survivin expression at both mRNA and protein levels. Transient transfection analyses revealed that the expression of wild-type p53, but not mutant p53, was associated with strong repression of the survivin promoter in various cell types. The over-expression of exogenous survivin protein rescues cells from p53-induced apoptosis in a dose-dependent manner, suggesting that loss of survivin mediates, at least, in part the p53-dependent apoptotic pathway. In spite of the presence of two putative p53-binding sites in the survivin promoter, deletion and mutation analyses suggested that neither site is required for transcriptional repression of survivin expression. This was con®rmed by chromatin immunoprecipitation assays. Further analyses suggested that the modi®cation of chromatin within the survivin promoter could be a molecular explanation for silencing of survivin gene transcription by p53.

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Increased Protein Stability as a Mechanism That Enhances Nrf2-mediated Transcriptional Activation of the Antioxidant Response Element

Nguyen¹,

Sherratt²,

Huang³

et al. 2003

Journal of Biological Chemistry

572

393

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Nrf2 (NF-E2Similarly, the protein phosphatase inhibitor okadaic acid also caused an accumulation of Nrf2, whereas the reverse effects were observed with PD 98059 and U 0126, two compounds that block the activation of the MAPK/ ERK signaling cascade. These data suggest that Nrf2 is degraded by the ubiquitin-dependent pathway and that phosphorylation of Nrf2 leads to an increase in its stability and subsequent transactivation activity.

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Cecil B. Pickett

The Nrf2-Antioxidant Response Element Signaling Pathway and Its Activation by Oxidative Stress

Regulatory Mechanisms Controlling Gene Expression Mediated by the Antioxidant Response Element

Phosphorylation of Nrf2 at Ser-40 by Protein Kinase C Regulates Antioxidant Response Element-mediated Transcription

Human survivin is negatively regulated by wild-type p53 and participates in p53-dependent apoptotic pathway

Increased Protein Stability as a Mechanism That Enhances Nrf2-mediated Transcriptional Activation of the Antioxidant Response Element

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