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Literature DB >> 34544877

Necroptosis activates UPR sensors without disrupting their binding with GRP78.

Wei Liang¹, Weiwei Qi^1,2, Yang Geng¹, Linhan Wang^1,2, Jing Zhao^1,2, Kezhou Zhu¹, Guowei Wu^1,2, Zairong Zhang¹, Heling Pan¹, Lihui Qian¹, Junying Yuan³.

Abstract

Necroptosis is a form of regulated necrosis mediated by the formation of the necrosome, composed of the RIPK1/RIPK3/MLKL complex. Here, we developed a proximity ligation assay (PLA) that allows in situ visualization of necrosomes in necroptotic cells and in vivo. Using PLA assay, we show that necrosomes can be found in close proximity to the endoplasmic reticulum (ER). Furthermore, we show that necroptosis activates ER stress sensors, PERK, IRE1α, and ATF6 in a RIPK1-RIPK3-MLKL axis-dependent manner. Activated MLKL can be translocated to the ER membrane to directly initiate the activation of ER stress signaling. The activation of IRE1α in necroptosis promotes the splicing of XBP1, and the subsequent incorporation of spliced XBP1 messenger RNA (mRNA) into extracellular vesicles (EVs). Finally, we show that unlike that of a conventional ER stress response, necroptosis promotes the activation of unfolded protein response (UPR) sensors without affecting their binding of GRP78. Our study reveals a signaling pathway that links MLKL activation in necroptosis to an unconventional ER stress response.

Entities: Chemical

Keywords: ER stress; IRE1α; PERK; UPR sensors; necroptosis

Mesh：

Substances：

Year: 2021 PMID： 34544877 PMCID： PMC8488584 DOI： 10.1073/pnas.2110476118

Source DB: PubMed Journal: Proc Natl Acad Sci U S A ISSN： 0027-8424 Impact factor: 11.205

33 in total

1. The transmembrane kinase Ire1p is a site-specific endonuclease that initiates mRNA splicing in the unfolded protein response.

Authors: C Sidrauski; P Walter
Journal: Cell Date: 1997-09-19 Impact factor: 41.582

Review 2. The mechanism of necroptosis in normal and cancer cells.

Authors: Simone Fulda
Journal: Cancer Biol Ther Date: 2013-09-12 Impact factor: 4.742

3. Biological properties of extracellular vesicles and their physiological functions.

Authors: María Yáñez-Mó; Pia R-M Siljander; Zoraida Andreu; Apolonija Bedina Zavec; Francesc E Borràs; Edit I Buzas; Krisztina Buzas; Enriqueta Casal; Francesco Cappello; Joana Carvalho; Eva Colás; Anabela Cordeiro-da Silva; Stefano Fais; Juan M Falcon-Perez; Irene M Ghobrial; Bernd Giebel; Mario Gimona; Michael Graner; Ihsan Gursel; Mayda Gursel; Niels H H Heegaard; An Hendrix; Peter Kierulf; Katsutoshi Kokubun; Maja Kosanovic; Veronika Kralj-Iglic; Eva-Maria Krämer-Albers; Saara Laitinen; Cecilia Lässer; Thomas Lener; Erzsébet Ligeti; Aija Linē; Georg Lipps; Alicia Llorente; Jan Lötvall; Mateja Manček-Keber; Antonio Marcilla; Maria Mittelbrunn; Irina Nazarenko; Esther N M Nolte-'t Hoen; Tuula A Nyman; Lorraine O'Driscoll; Mireia Olivan; Carla Oliveira; Éva Pállinger; Hernando A Del Portillo; Jaume Reventós; Marina Rigau; Eva Rohde; Marei Sammar; Francisco Sánchez-Madrid; N Santarém; Katharina Schallmoser; Marie Stampe Ostenfeld; Willem Stoorvogel; Roman Stukelj; Susanne G Van der Grein; M Helena Vasconcelos; Marca H M Wauben; Olivier De Wever
Journal: J Extracell Vesicles Date: 2015-05-14

4. ESCRT-III Acts Downstream of MLKL to Regulate Necroptotic Cell Death and Its Consequences.

Authors: Yi-Nan Gong; Cliff Guy; Hannes Olauson; Jan Ulrich Becker; Mao Yang; Patrick Fitzgerald; Andreas Linkermann; Douglas R Green
Journal: Cell Date: 2017-04-06 Impact factor: 41.582

5. MLKL compromises plasma membrane integrity by binding to phosphatidylinositol phosphates.

Authors: Yves Dondelinger; Wim Declercq; Sylvie Montessuit; Ria Roelandt; Amanda Goncalves; Inge Bruggeman; Paco Hulpiau; Kathrin Weber; Clark A Sehon; Robert W Marquis; John Bertin; Peter J Gough; Savvas Savvides; Jean-Claude Martinou; Mathieu J M Bertrand; Peter Vandenabeele
Journal: Cell Rep Date: 2014-05-09 Impact factor: 9.423

6. Activation of the pseudokinase MLKL unleashes the four-helix bundle domain to induce membrane localization and necroptotic cell death.

Authors: Joanne M Hildebrand; Maria C Tanzer; Isabelle S Lucet; Samuel N Young; Sukhdeep K Spall; Pooja Sharma; Catia Pierotti; Jean-Marc Garnier; Renwick C J Dobson; Andrew I Webb; Anne Tripaydonis; Jeffrey J Babon; Mark D Mulcair; Martin J Scanlon; Warren S Alexander; Andrew F Wilks; Peter E Czabotar; Guillaume Lessene; James M Murphy; John Silke
Journal: Proc Natl Acad Sci U S A Date: 2014-10-06 Impact factor: 11.205

Necroptosis activates UPR sensors without disrupting their binding with GRP78.

1. The transmembrane kinase Ire1p is a site-specific endonuclease that initiates mRNA splicing in the unfolded protein response.

Review 2. The mechanism of necroptosis in normal and cancer cells.

3. Biological properties of extracellular vesicles and their physiological functions.

4. ESCRT-III Acts Downstream of MLKL to Regulate Necroptotic Cell Death and Its Consequences.

5. MLKL compromises plasma membrane integrity by binding to phosphatidylinositol phosphates.

6. Activation of the pseudokinase MLKL unleashes the four-helix bundle domain to induce membrane localization and necroptotic cell death.

7. Receptor interacting protein kinase-3 determines cellular necrotic response to TNF-alpha.

Review 8. The mammalian unfolded protein response.

9. Necroptosis promotes cell-autonomous activation of proinflammatory cytokine gene expression.

10. Incorporation of the Endoplasmic Reticulum Stress-Induced Spliced Form of XBP1 mRNA in the Exosomes.

1. PP6 negatively modulates LUBAC-mediated M1-ubiquitination of RIPK1 and c-FLIP_L to promote TNFα-mediated cell death.

2. Bibliometric analysis of publications on necroptosis from 2001 to 2021.