Nrf2-Keap1 pathway promotes cell proliferation and diminishes ferroptosis

Zhang, Fan; Wirth, Anna-Katharina; Chen, D; Cj, Wruck; Rauh, Manfred; Buchfelder, Michael; Savaskan, Nicolai Ε.

doi:10.1038/oncsis.2017.65

Cited by 515 publications

(371 citation statements)

References 47 publications

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“…Those molecular targets of ginger indicate that it may have the potential for preventing and treating GI cancer (Prasad and Tyagi, 2015b). Though the notion that Nrf2 inducers and/or Keap-1 suppressors may serve as promoters of cancer cell proliferation with increased resistance to ferroptosis cell death (Fan et al, 2017); ginger extract exerted an Nrf-2-inducing activity with concurrent inhibition of alpha-feto protein, proliferation marker, in all examined tissues and decline in oxidative and inflammatory markers, thus contributing to its chemoprevention activity probably via mechanism involving Nrf2/Keap1/ARE pathway. Therefore, further molecular investigation is warranted to outline ginger antioxidant/anti-inflammatory/anti-proliferative crosstalk mechanism.…”

Section: Discussionmentioning

confidence: 99%

The Carcinogenic Agent Diethylnitrosamine Induces Early Oxidative Stress, Inflammation and Proliferation in Rat Liver, Stomach and Colon: Protective Effect of Ginger Extract

Mansour

Abdallah

Ibrahim

et al. 2019

Asian Pac J Cancer Prev

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Background:Diethylnitrosamine (DENA), a well-known dietary carcinogen, related to cancer initiation of various organs. The present study investigated the deleterious mechanisms involved in the early destructive changes of DENA in different organs namely, liver, stomach and colon and the potential protective effect of GE against these mechanisms. Methods:Adult male albino rats were assigned into four groups. A normal control group received the vehicle, another group was injected with a single necrogenic dose of DENA (200 mg/kg, i.p) on day 21. Two groups received oral GE (108 or 216 mg/kg) daily for 28 days. Sera, liver, stomach and colon were obtained 7 days after DENA injection. Serum aspartate transaminase and alanine transaminase were detected as well as reduced glutathione (GSH), malondialdehyde, nitric oxide metabolites, interleukin 1β, tumor necrosis factor (TNF-α), alpha-fetoprotein (AFP) and nuclear factor-erythroid 2-related factor2 (Nrf2) in liver, stomach and colon. Histopathological studies and immunohistochemical examination of cyclooxygenase-2 (COX2) were conducted.Results:DENA induced elevation in liver function enzymes with significant increase in oxidation and inflammation biomarkers and AFP while decreased levels of Nrf2 in liver, stomach and colon were detected. Histologically, DENA showed degenerative changes in hepatocytes and inflammatory foci. Inflammatory foci displayed increased expression of COX2 in immunohistochemical staining. GE-pretreatment improved liver function and restored normal GSH with significant mitigation of oxidative stress and inflammatory biomarkers compared to DENA-treated group. AFP was reduced by GE in both doses, while Nrf2 increased significantly. Histology and immunostaining of hepatic COX-2 were remarkably improved in GE-treated groups in a dose dependent manner. Conclusion:GE exerted a potential anti-proliferative activity against DENA in liver, stomach and colon via Nrf2 activation, whilst suppression of oxidation and inflammation.

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Section: Discussionmentioning

confidence: 99%

The Carcinogenic Agent Diethylnitrosamine Induces Early Oxidative Stress, Inflammation and Proliferation in Rat Liver, Stomach and Colon: Protective Effect of Ginger Extract

Mansour

Abdallah

Ibrahim

et al. 2019

Asian Pac J Cancer Prev

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“…Under normoxic cellular conditions, Nrf2 is bound by Kelch-like ECH-associated protein 1 (Keap1) and persists in an inactivated status through ubiquitination and degradation in the proteasome (Reisman et al, 2009). Upon oxidative or electrophilic stress, Nrf2 becomes unleashed from the Keap1 protein binding and translocates to the nucleus (Fan et al, 2017). In the nucleus, Nrf2 transcripts antioxidant responsive element (ARE)-dependent genes in order to balance oxidative mediators and maintain cellular redox homeostasis (Hayes and Dinkova-Kostova, 2014).…”

Section: Other Related Signaling Metabolismmentioning

confidence: 99%

Ferroptosis and Its Potential Role in Human Diseases

et al. 2020

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Ferroptosis is a novel regulated cell death pattern discovered when studying the mechanism of erastin-killing RAS mutant tumor cells in 2012. It is an iron-dependent programmed cell death pathway mainly caused by an increased redox imbalance but with distinct biological and morphology characteristics when compared to other known cell death patterns. Ferroptosis is associated with various diseases including acute kidney injury, cancer, and cardiovascular, neurodegenerative, and hepatic diseases. Moreover, activation or inhibition of ferroptosis using a variety of ferroptosis initiators and inhibitors can modulate disease progression in animal models. In this review, we provide a comprehensive analysis of the characteristics of ferroptosis, its initiators and inhibitors, and the potential role of its main metabolic pathways in the treatment and prevention of various diseased states. We end the review with the current knowledge gaps in this area to provide direction for future research on ferroptosis.

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“…The activity of Nrf2 is strictly regulated by Kelch-like ECH-related protein 1 (Keap1); Keap1 not only passively isolates Nrf2 from the cytoplasm but also plays an active role in targeting Nrf2 for ubiquitination and proteasome degradation (Zhang et al, 2004;Furukawa and Xiong, 2005). Nrf2 can directly or indirectly regulate GPX4 protein content (Hayes and Dinkova-Kostova, 2014;Fan et al, 2017;Dodson et al, 2019;Zhang et al, 2019), intracellular free iron content (Agyeman et al, 2012;Sun et al, 2016b;Shin et al, 2018), mitochondrial function (Merry and Ristow, 2016;Navarro et al, 2017), nicotinamide adenine dinucleotide hydro-phosphoric acid (NAPDH) regeneration (Abdalkader et al, 2018), etc., thereby regulating ferroptosis process. Of note, many studies found that Nrf2 is expressed in the central nervous system (CNS), neurons, astrocytes, leukocytes, and microglia (Tanaka et al, 2011;Dang et al, 2012;Sandberg et al, 2014), and numerous evidence suggests that Nrf2 plays an important role in the development and treatment of neurodegenerative diseases Deng et al, 2019;Jang et al, 2019;Pachón-Angona et al, 2019;Wei et al, 2019).…”

Section: Introductionmentioning

confidence: 99%