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      p62/SQSTM1 protects against cisplatin-induced oxidative stress in kidneys by mediating the cross talk between autophagy and the Keap1-Nrf2 signalling pathway

      Author(s): 1 , 2 , 2 , 2 , 2 , 2 , 1 , 2
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      Journal: Free Radical Research
      Publisher: Informa UK Limited

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          Abstract

          <p class="first" id="d6018770e109">Acute kidney injury (AKI) is a major kidney disease associated with poor clinical outcomes. Oxidative stress is predominantly involved in the pathogenesis of AKI. Autophagy and the Keap1-Nrf2 signalling pathway are both involved in the oxidative-stress response. However, the cross talk between these two pathways in AKI remains unknown. Here, we found that autophagy is upregulated during cisplatin-induced AKI. In contrast with previous studies, we observed a marked increase in p62. We also found that p62 knockdown reduces autophagosome formation and the expression of LC3II. To explore the cross talk between p62 and the Keap1-Nrf2 signalling pathway, HK-2 cells were transfected with siRNA targeting Nrf2, and we found that Nrf2 knockdown significantly reduced cisplatin-induced p62 expression. Moreover, p62 knockdown significantly decreased the protein expression of Nrf2, as well as Heme Oxygenase-1 (HO-1) and NAD(P)H:quinone oxidoreductase l (NQO1), whereas the expression of kelch-like ECH-associated protein 1 (Keap1) was upregulated. These results indicate that p62 creates a positive feedback loop in the Keap1-Nrf2 signalling pathway. Finally, we examined the role of p62 in cell protection during cisplatin-induced oxidative stress, and we found that p62 silencing in HK-2 cells increases apoptosis and reactive oxygen species (ROS) levels, which further indicates the protective role of p62 under oxidative stress and suggests that the cytoprotection 62 mediated is in part by regulating autophagic activity or the Keap1-Nrf2 signalling pathway. Taken together, our results have demonstrated a reciprocal regulation of p62, autophagy and the Keap1-Nrf2 signalling pathway under oxidative stress, which may be a potential therapeutic target against AKI. </p>

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          A noncanonical mechanism of Nrf2 activation by autophagy deficiency: direct interaction between Keap1 and p62.

          Alexandria Lau, Xiao-Jun Wang, Fei Zhao (2010)
          In response to stress, cells can utilize several cellular processes, such as autophagy, which is a bulk-lysosomal degradation pathway, to mitigate damages and increase the chances of cell survival. Deregulation of autophagy causes upregulation of p62 and the formation of p62-containing aggregates, which are associated with neurodegenerative diseases and cancer. The Nrf2-Keap1 pathway functions as a critical regulator of the cell's defense mechanism against oxidative stress by controlling the expression of many cellular protective proteins. Under basal conditions, Nrf2 is ubiquitinated by the Keap1-Cul3-E3 ubiquitin ligase complex and targeted to the 26S proteasome for degradation. Upon induction, the activity of the E3 ubiquitin ligase is inhibited through the modification of cysteine residues in Keap1, resulting in the stabilization and activation of Nrf2. In this current study, we identified the direct interaction between p62 and Keap1 and the residues required for the interaction have been mapped to 349-DPSTGE-354 in p62 and three arginines in the Kelch domain of Keap1. Accumulation of endogenous p62 or ectopic expression of p62 sequesters Keap1 into aggregates, resulting in the inhibition of Keap1-mediated Nrf2 ubiquitination and its subsequent degradation by the proteasome. In contrast, overexpression of mutated p62, which loses its ability to interact with Keap1, had no effect on Nrf2 stability, demonstrating that p62-mediated Nrf2 upregulation is Keap1 dependent. These findings demonstrate that autophagy deficiency activates the Nrf2 pathway in a noncanonical cysteine-independent mechanism.
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            p62/SQSTM1 is a target gene for transcription factor NRF2 and creates a positive feedback loop by inducing antioxidant response element-driven gene transcription.

            Michael T. McMahon, Ashish Jain, Terje Johansen (2010)
            The p62/SQSTM1 (sequestosome 1) protein, which acts as a cargo receptor for autophagic degradation of ubiquitinated targets, is up-regulated by various stressors. Induction of the p62 gene by oxidative stress is mediated by NF-E2-related factor 2 (NRF2) and, at the same time, p62 protein contributes to the activation of NRF2, but hitherto the mechanisms involved were not known. Herein, we have mapped an antioxidant response element (ARE) in the p62 promoter that is responsible for its induction by oxidative stress via NRF2. Chromatin immunoprecipitation and gel mobility-shift assays verified that NRF2 binds to this cis-element in vivo and in vitro. Also, p62 docks directly onto the Kelch-repeat domain of Kelch-like ECH-associated protein 1 (KEAP1), via a motif designated the KEAP1 interacting region (KIR), thereby blocking binding between KEAP1 and NRF2 that leads to ubiquitylation and degradation of the transcription factor. The KIR motif in p62 is located immediately C-terminal to the LC3-interacting region (LIR) and resembles the ETGE motif utilized by NRF2 for its interaction with KEAP1. KIR is required for p62 to stabilize NRF2, and inhibition of KEAP1 by p62 occurs from a cytoplasmic location within the cell. The LIR and KIR motifs cannot be engaged simultaneously by LC3 and KEAP1, but because p62 is polymeric the interaction between KEAP1 and p62 leads to accumulation of KEAP1 in p62 bodies, which is followed by autophagic degradation of KEAP1. Our data explain how p62 contributes to activation of NRF2 target genes in response to oxidative stress through creating a positive feedback loop.
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              Acute kidney injury.

              Rinaldo Bellomo, John A Kellum, Claudio Ronco (2012)
              Acute kidney injury (formerly known as acute renal failure) is a syndrome characterised by the rapid loss of the kidney's excretory function and is typically diagnosed by the accumulation of end products of nitrogen metabolism (urea and creatinine) or decreased urine output, or both. It is the clinical manifestation of several disorders that affect the kidney acutely. Acute kidney injury is common in hospital patients and very common in critically ill patients. In these patients, it is most often secondary to extrarenal events. How such events cause acute kidney injury is controversial. No specific therapies have emerged that can attenuate acute kidney injury or expedite recovery; thus, treatment is supportive. New diagnostic techniques (eg, renal biomarkers) might help with early diagnosis. Patients are given renal replacement therapy if acute kidney injury is severe and biochemical or volume-related, or if uraemic-toxaemia-related complications are of concern. If patients survive their illness and do not have premorbid chronic kidney disease, they typically recover to dialysis independence. However, evidence suggests that patients who have had acute kidney injury are at increased risk of subsequent chronic kidney disease. Copyright © 2012 Elsevier Ltd. All rights reserved.
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                Author and article information

                Journal
                Title: Free Radical Research
                Abbreviated Title: Free Radical Research
                Publisher: Informa UK Limited
                ISSN (Print): 1071-5762
                ISSN (Electronic): 1029-2470
                Publication date Created: July 04 2019
                Publication date Created: July 03 2019
                Publication date (Electronic): July 08 2019
                Publication date (Print): July 03 2019
                Volume: 53
                Issue: 7
                Pages: 800-814
                Affiliations
                [1 ] Department of Nephrology, Sun Yat-sen Memorial Hospital, Sun Yat-sen University, Guangzhou, PR China;
                [2 ] Department of Nephrology, Ruijin Hospital, Shanghai Jiao Tong University, School of Medicine, Shanghai, PR China
                Article
                DOI: 10.1080/10715762.2019.1635251
                PubMed ID: 31223046
                SO-VID: 8d2472b5-73c1-4c49-bfd6-aae2fd6bf891
                Copyright © © 2019
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