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      NRF2 regulates the sensitivity of human NSCLC cells to cystine deprivation-induced ferroptosis via FOCAD-FAK signaling pathway

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          Abstract

          Transcription factor nuclear factor-erythroid 2-like 2 (NRF2) mainly regulates cellular antioxidant response, redox homeostasis and metabolic balance. Our previous study illustrated the translational significance of NRF2-mediated transcriptional repression, and the transcription of FOCAD gene might be negatively regulated by NRF2. However, the detailed mechanism and the related significance remain unclear. In this study, we mainly explored the effect of NRF2-FOCAD signaling pathway on ferroptosis regulation in human non-small-cell lung carcinoma (NSCLC) model. Our results confirmed the negative regulation relationship between NRF2 and FOCAD, which was dependent on NRF2-Replication Protein A1 (RPA1)-Antioxidant Response Elements (ARE) complex. In addition, FOCAD promoted the activity of focal adhesion kinase (FAK), which further enhanced the sensitivity of NSCLC cells to cysteine deprivation-induced ferroptosis via promoting the tricarboxylic acid (TCA) cycle and the activity of Complex I in mitochondrial electron transport chain (ETC). However, FOCAD didn't affect GPX4 inhibition-induced ferroptosis. Moreover, the treatment with the combination of NRF2 inhibitor (brusatol) and erastin showed better therapeutic action against NSCLC in vitro and in vivo than single treatment, and the improved therapeutic function partially depended on the activation of FOCAD-FAK signal. Taken together, our study indicates the close association of NRF2-FOCAD-FAK signaling pathway with cysteine deprivation-induced ferroptosis, and elucidates a novel insight into the ferroptosis-based therapeutic approach for the patients with NSCLC.

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          Ferroptosis at the crossroads of cancer-acquired drug resistance and immune evasion

          Jose Pedro Friedmann Angeli, Dmitri V. Krysko, Marcus Conrad (2019)
          Ferroptosis is a recently recognized cell death modality that is morphologically, biochemically and genetically distinct from other forms of cell death and that has emerged to play an important role in cancer biology. Recent discoveries have highlighted the metabolic plasticity of cancer cells and have provided intriguing insights into how metabolic rewiring is a critical event for the persistence, dedifferentiation and expansion of cancer cells. In some cases, this metabolic reprogramming has been linked to an acquired sensitivity to ferroptosis, thus opening up new opportunities to treat therapy-insensitive tumours. However, it is not yet clear what metabolic determinants are critical for therapeutic resistance and evasion of immune surveillance. Therefore, a better understanding of the processes that regulate ferroptosis sensitivity should ultimately aid in the discovery of novel therapeutic strategies to improve cancer treatment. In this Perspectives article, we provide an overview of the known mechanisms that regulate sensitivity to ferroptosis in cancer cells and how the modulation of metabolic pathways controlling ferroptosis might reshape the tumour niche, leading to an immunosuppressive microenvironment that promotes tumour growth and progression.
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            Autophagy-Dependent Ferroptosis: Machinery and Regulation

            Jiao Liu, Feimei Kuang, Guido Kroemer (2020)
            Macroautophagy (hereafter referred to as autophagy) is an evolutionarily conserved cellular process capable of degrading various biological molecules (e.g., protein, glycogen, lipids, DNA, and RNA) and organelles (e.g., mitochondria, endoplasmic reticulum [ER] ribosomes, lysosomes, and micronuclei) via the lysosomal pathway. Ferroptosis is a type of oxidative stress-dependent regulated cell death associated with iron accumulation and lipid peroxidation. The recently discovered role of autophagy, especially selective types of autophagy (e.g., ferritinophagy, lipophagy, clockophagy, and chaperone-mediated autophagy), in driving cells toward ferroptotic death motivated us to explore the functional interactions between metabolism, immunity, and cell death. Here, we describe types of selective autophagy and discuss the regulatory mechanisms and signaling pathways of autophagy-dependent ferroptosis. We also summarize chemical modulators that are currently available for triggering or blocking autophagy-dependent ferroptosis and that may be developed for therapeutic interventions in human diseases.
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              Molecular mechanisms of ferroptosis and its role in cancer therapy

              Tao Xu, Wei Ding, Xiaoyu Ji (2019)
              Abstract Ferroptosis is a newly defined programmed cell death process with the hallmark of the accumulation of iron‐dependent lipid peroxides. The term was first coined in 2012 by the Stockwell Lab, who described a unique type of cell death induced by the small molecules erastin or RSL3. Ferroptosis is distinct from other already established programmed cell death and has unique morphological and bioenergetic features. The physiological role of ferroptosis during development has not been well characterized. However, ferroptosis shows great potentials during the cancer therapy. Great progress has been made in exploring the mechanisms of ferroptosis. In this review, we focus on the molecular mechanisms of ferroptosis, the small molecules functioning in ferroptosis initiation and ferroptosis sensitivity in different cancers. We are also concerned with the new arising questions in this particular research area that remains unanswered.
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                Author and article information

                Contributors
                Pengfei Liu
                Yetong Feng
                Journal
                Journal ID (nlm-ta): Redox Biol
                Journal ID (iso-abbrev): Redox Biol
                Title: Redox Biology
                Publisher: Elsevier
                ISSN (Electronic): 2213-2317
                Publication date PMC-release: 27 August 2020
                Publication date Collection: October 2020
                Publication date (Electronic): 27 August 2020
                Volume: 37
                Electronic Location Identifier: 101702
                Affiliations
                [a ]Ambulatory Surgical Center, The 2nd Clinical Medical College (Shenzhen People's Hospital) of Jinan University, The 1st Affiliated Hospitals of Southern University of Science and Technology, Shenzhen, 518020, China
                [b ]Integrated Chinese and Western Medicine Postdoctoral Research Station, Jinan University, Guangzhou, 510632, China
                [c ]School of Pharmaceutical Sciences, Jilin University, Changchun, 130012, China
                Author notes
                []Corresponding author. Ambulatory Surgical Center, The 2nd Clinical medical College (Shenzhen People's Hospital) of Jinan University, The 1st Affiliated Hospitals of Southern University of Science and Technology, Shenzhen, 518020, China. pengfeiliu@ 123456jnu.edu.cn
                [∗∗ ]Corresponding author. Ambulatory Surgical Center, The 2nd Clinical medical College (Shenzhen People's Hospital) of Jinan University, The 1st Affiliated Hospitals of Southern University of Science and Technology, Shenzhen, 518020, China. fengyt2017@ 123456gmail.com
                Article
                Publisher ID: S2213-2317(20)30907-1 Publisher ID: 101702
                DOI: 10.1016/j.redox.2020.101702
                PMC ID: 7486457
                PubMed ID: 32898818
                SO-VID: 9ee37ab9-d013-4443-bfb4-049091d0d54a
                Copyright © © 2020 The Authors
                License:

                This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).

                History
                Date received : 18 April 2020
                Date revision received : 19 August 2020
                Date accepted : 23 August 2020
                Categories
                Subject: Research Paper

                Keywords: nrf2,focad,fak,ferroptosis,mitochondria,nsclc
                Data availability:
                Keywords: nrf2, focad, fak, ferroptosis, mitochondria, nsclc

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