Literature DB >> 26968619

Necroptosis: an alternative cell death program defending against cancer.

Dongshi Chen1, Jian Yu2, Lin Zhang3.   

Abstract

One of the hallmarks of cancer is resistance to programmed cell death, which maintains the survival of cells en route to oncogenic transformation and underlies therapeutic resistance. Recent studies demonstrate that programmed cell death is not confined to caspase-dependent apoptosis, but includes necroptosis, a form of necrotic death governed by Receptor-Interacting Protein 1 (RIP1), RIP3, and Mixed Lineage Kinase Domain-Like (MLKL) protein. Necroptosis serves as a critical cell-killing mechanism in response to severe stress and blocked apoptosis, and can be induced by inflammatory cytokines or chemotherapeutic drugs. Genetic or epigenetic alterations of necroptosis regulators such as RIP3 and cylindromatosis (CYLD), are frequently found in human tumors. Unlike apoptosis, necroptosis elicits a more robust immune response that may function as a defensive mechanism by eliminating tumor-causing mutations and viruses. Furthermore, several classes of anticancer agents currently under clinical development, such as SMAC and BH3 mimetics, can promote necroptosis in addition to apoptosis. A more complete understanding of the interplay among necroptosis, apoptosis, and other cell death modalities is critical for developing new therapeutic strategies to enhance killing of tumor cells.
Copyright © 2016 Elsevier B.V. All rights reserved.

Entities:  

Keywords:  Cancer; MLKL; Necroptosis; RIP1; RIP3

Mesh:

Substances:

Year:  2016        PMID: 26968619      PMCID: PMC4860077          DOI: 10.1016/j.bbcan.2016.03.003

Source DB:  PubMed          Journal:  Biochim Biophys Acta        ISSN: 0006-3002


  124 in total

1.  The adaptor protein FADD protects epidermal keratinocytes from necroptosis in vivo and prevents skin inflammation.

Authors:  Marion C Bonnet; Daniela Preukschat; Patrick-Simon Welz; Geert van Loo; Maria A Ermolaeva; Wilhelm Bloch; Ingo Haase; Manolis Pasparakis
Journal:  Immunity       Date:  2011-10-13       Impact factor: 31.745

Review 2.  To kill or be killed: how viruses interact with the cell death machinery.

Authors:  V Kaminskyy; B Zhivotovsky
Journal:  J Intern Med       Date:  2010-05       Impact factor: 8.989

3.  Reduced expression of CYLD in human colon and hepatocellular carcinomas.

Authors:  Claus Hellerbrand; Elisabeth Bumes; Frauke Bataille; Wolfgang Dietmaier; Ramin Massoumi; Anja K Bosserhoff
Journal:  Carcinogenesis       Date:  2006-06-13       Impact factor: 4.944

4.  RIPK1 maintains epithelial homeostasis by inhibiting apoptosis and necroptosis.

Authors:  Marius Dannappel; Katerina Vlantis; Snehlata Kumari; Apostolos Polykratis; Chun Kim; Laurens Wachsmuth; Christina Eftychi; Juan Lin; Teresa Corona; Nicole Hermance; Matija Zelic; Petra Kirsch; Marijana Basic; Andre Bleich; Michelle Kelliher; Manolis Pasparakis
Journal:  Nature       Date:  2014-08-17       Impact factor: 49.962

5.  RIPK1 blocks early postnatal lethality mediated by caspase-8 and RIPK3.

Authors:  Christopher P Dillon; Ricardo Weinlich; Diego A Rodriguez; James G Cripps; Giovanni Quarato; Prajwal Gurung; Katherine C Verbist; Taylor L Brewer; Fabien Llambi; Yi-Nan Gong; Laura J Janke; Michelle A Kelliher; Thirumala-Devi Kanneganti; Douglas R Green
Journal:  Cell       Date:  2014-05-08       Impact factor: 41.582

6.  Widespread mitochondrial depletion via mitophagy does not compromise necroptosis.

Authors:  Stephen W G Tait; Andrew Oberst; Giovanni Quarato; Sandra Milasta; Martina Haller; Ruoning Wang; Maria Karvela; Gabriel Ichim; Nader Yatim; Matthew L Albert; Grahame Kidd; Randall Wakefield; Sharon Frase; Stefan Krautwald; Andreas Linkermann; Douglas R Green
Journal:  Cell Rep       Date:  2013-11-21       Impact factor: 9.423

7.  RIP1 suppresses innate immune necrotic as well as apoptotic cell death during mammalian parturition.

Authors:  William J Kaiser; Lisa P Daley-Bauer; Roshan J Thapa; Pratyusha Mandal; Scott B Berger; Chunzi Huang; Aarthi Sundararajan; Hongyan Guo; Linda Roback; Samuel H Speck; John Bertin; Peter J Gough; Siddharth Balachandran; Edward S Mocarski
Journal:  Proc Natl Acad Sci U S A       Date:  2014-05-12       Impact factor: 11.205

8.  Phosphorylation-driven assembly of the RIP1-RIP3 complex regulates programmed necrosis and virus-induced inflammation.

Authors:  Young Sik Cho; Sreerupa Challa; David Moquin; Ryan Genga; Tathagat Dutta Ray; Melissa Guildford; Francis Ka-Ming Chan
Journal:  Cell       Date:  2009-06-12       Impact factor: 41.582

9.  Functional complementation between FADD and RIP1 in embryos and lymphocytes.

Authors:  Haibing Zhang; Xiaohui Zhou; Thomas McQuade; Jinghe Li; Francis Ka-Ming Chan; Jianke Zhang
Journal:  Nature       Date:  2011-03-02       Impact factor: 49.962

10.  The B-Raf(V600E) inhibitor dabrafenib selectively inhibits RIP3 and alleviates acetaminophen-induced liver injury.

Authors:  J-X Li; J-M Feng; Y Wang; X-H Li; X-X Chen; Y Su; Y-Y Shen; Y Chen; B Xiong; C-H Yang; J Ding; Z-H Miao
Journal:  Cell Death Dis       Date:  2014-06-05       Impact factor: 8.469
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  58 in total

1.  D609 protects retinal pigmented epithelium as a potential therapy for age-related macular degeneration.

Authors:  Bowen Wang; Li Wang; Sijie Gu; Yankun Yu; Huaxing Huang; Kunlun Mo; He Xu; Fanzhu Zeng; Yichen Xiao; Lulu Peng; Chunqiao Liu; Nan Cao; Yizhi Liu; Jin Yuan; Hong Ouyang
Journal:  Signal Transduct Target Ther       Date:  2020-03-04

2.  p53 Up-regulated Modulator of Apoptosis Induction Mediates Acetaminophen-Induced Necrosis and Liver Injury in Mice.

Authors:  Dongshi Chen; Hong-Min Ni; Lei Wang; Xiaowen Ma; Jian Yu; Wen-Xing Ding; Lin Zhang
Journal:  Hepatology       Date:  2019-03-11       Impact factor: 17.425

3.  The cooperative interplay among inflammation, necroptosis and YAP pathway contributes to the folate deficiency-induced liver cells enlargement.

Authors:  Wan-Yu Chi; Tsun-Hsien Hsiao; Gang-Hui Lee; I-Hsiu Su; Bing-Hung Chen; Ming-Jer Tang; Tzu-Fun Fu
Journal:  Cell Mol Life Sci       Date:  2022-07-05       Impact factor: 9.261

4.  Arctigenin induces necroptosis through mitochondrial dysfunction with CCN1 upregulation in prostate cancer cells under lactic acidosis.

Authors:  Yoon-Jin Lee; Hae-Seon Nam; Moon-Kyun Cho; Sang-Han Lee
Journal:  Mol Cell Biochem       Date:  2020-02-17       Impact factor: 3.396

5.  RIP1 upregulation promoted tumor progression by activating AKT/Bcl-2/BAX signaling and predicted poor postsurgical prognosis in HCC.

Authors:  Cong Wang; Bowen Yao; Meng Xu; Xin Zheng
Journal:  Tumour Biol       Date:  2016-10-04

Review 6.  Immunogenic cell death in colon cancer prevention and therapy.

Authors:  Hang Ruan; Brian J Leibowitz; Lin Zhang; Jian Yu
Journal:  Mol Carcinog       Date:  2020-03-25       Impact factor: 4.784

7.  Release of Cathepsin B in Cytosol Causes Cell Death in Acute Pancreatitis.

Authors:  Rupjyoti Talukdar; Archana Sareen; Hongyan Zhu; Zuobiao Yuan; Ajay Dixit; Hassam Cheema; John George; Usman Barlass; Raghuwansh Sah; Sushil K Garg; Sulagna Banerjee; Pramod Garg; Vikas Dudeja; Rajinder Dawra; Ashok K Saluja
Journal:  Gastroenterology       Date:  2016-08-09       Impact factor: 22.682

Review 8.  Double agents of cell death: novel emerging functions of apoptotic regulators.

Authors:  Heather M Lamb
Journal:  FEBS J       Date:  2020-04-11       Impact factor: 5.542

9.  Dendrobium Alkaloids Promote Neural Function After Cerebral Ischemia-Reperfusion Injury Through Inhibiting Pyroptosis Induced Neuronal Death in both In Vivo and In Vitro Models.

Authors:  Daohang Liu; Zhi Dong; Fei Xiang; Hailin Liu; Yuchun Wang; Qian Wang; Jiangyan Rao
Journal:  Neurochem Res       Date:  2019-12-21       Impact factor: 3.996

10.  Pigmentation Levels Affect Melanoma Responses to Coriolus versicolor Extract and Play a Crucial Role in Melanoma-Mononuclear Cell Crosstalk.

Authors:  Małgorzata Pawlikowska; Tomasz Jędrzejewski; Andrzej T Slominski; Anna A Brożyna; Sylwia Wrotek
Journal:  Int J Mol Sci       Date:  2021-05-27       Impact factor: 5.923
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