Human RIPK3 C-lobe phosphorylation is essential for necroptotic signaling

被引:18
作者
Meng, Yanxiang [1 ,2 ]
Horne, Christopher R. [1 ,2 ]
Samson, Andre L. [1 ,2 ]
Dagley, Laura F. [1 ,2 ]
Young, Samuel N. [1 ]
Sandow, Jarrod J. [1 ,2 ]
Czabotar, Peter E. [1 ,2 ]
Murphy, James M. [1 ,2 ]
机构
[1] Walter & Eliza Hall Inst Med Res, 1G Royal Parade, Parkville, Vic 3052, Australia
[2] Univ Melbourne, Dept Med Biol, Parkville, Vic 3052, Australia
基金
英国医学研究理事会;
关键词
MIXED LINEAGE KINASE; CELL-DEATH; NECROSIS; MOUSE; TNF; DOMAIN; INFLAMMATION; MECHANISMS; APOPTOSIS; MEMBRANE;
D O I
10.1038/s41419-022-05009-y
中图分类号
Q2 [细胞生物学];
学科分类号
071009 ; 090102 ;
摘要
Necroptosis is a caspase-independent, pro-inflammatory mode of programmed cell death which relies on the activation of the terminal effector, MLKL, by the upstream protein kinase RIPK3. To mediate necroptosis, RIPK3 must stably interact with, and phosphorylate the pseudokinase domain of MLKL, although the precise molecular cues that provoke RIPK3 necroptotic signaling are incompletely understood. The recent finding that RIPK3 S227 phosphorylation and the occurrence of a stable RIPK3:MLKL complex in human cells prior to exposure to a necroptosis stimulus raises the possibility that additional, as-yet-unidentified phosphorylation events activate RIPK3 upon initiation of necroptosis signaling. Here, we sought to identify phosphorylation sites of RIPK3 and dissect their regulatory functions. Phosphoproteomics identified 21 phosphorylation sites in HT29 cells overexpressing human RIPK3. By comparing cells expressing wild-type and kinase-inactive D142N RIPK3, autophosphorylation sites and substrates of other cellular kinases were distinguished. Of these 21 phosphosites, mutational analyses identified only pT224 and pS227 as crucial, synergistic sites for stable interaction with MLKL to promote necroptosis, while the recently reported activation loop phosphorylation at S164/T165 negatively regulate the kinase activity of RIPK3. Despite being able to phosphorylate MLKL to a similar or higher extent than wild-type RIPK3, mutation of T224, S227, or the RHIM in RIPK3 attenuated necroptosis. This finding highlights the stable recruitment of human MLKL by RIPK3 to the necrosome as an essential checkpoint in necroptosis signaling, which is independent from and precedes the phosphorylation of MLKL.
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页数:12
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共 54 条
[1]   Interactions of tumor necrosis factor (TNF) and TNF receptor family members in the mouse and human [J].
Bossen, Claudia ;
Ingold, Karine ;
Tardivel, Aubry ;
Bodmer, Jean-Luc ;
Gaide, Olivier ;
Hertig, Sylvie ;
Ambrose, Christine ;
Tschopp, Juerg ;
Schneider, Pascal .
JOURNAL OF BIOLOGICAL CHEMISTRY, 2006, 281 (20) :13964-13971
[2]   Diverse Sequence Determinants Control Human and Mouse Receptor Interacting Protein 3 (RIP3) and Mixed Lineage Kinase domain-Like (MLKL) Interaction in Necroptotic Signaling [J].
Chen, Wanze ;
Zhou, Zhenru ;
Li, Lisheng ;
Zhong, Chuan-Qi ;
Zheng, Xinru ;
Wu, Xiurong ;
Zhang, Yingying ;
Ma, Huan ;
Huang, Deli ;
Li, Wenjuan ;
Xia, Zongping ;
Han, Jiahuai .
JOURNAL OF BIOLOGICAL CHEMISTRY, 2013, 288 (23) :16247-16261
[3]   PELI1 Selectively Targets Kinase-Active RIP3 for Ubiquitylation-Dependent Proteasomal Degradation [J].
Choi, Seung-Won ;
Park, Han-Hee ;
Kim, Soyeon ;
Chung, Jee Min ;
Noh, Hyun-Jin ;
Kim, Sue Kyung ;
Song, Hyun Kyu ;
Lee, Chang-Woo ;
Morgan, Michael J. ;
Kang, Ho Chul ;
Kim, You-Sun .
MOLECULAR CELL, 2018, 70 (05) :920-+
[4]   Distinct pseudokinase domain conformations underlie divergent activation mechanisms among vertebrate MLKL orthologues [J].
Davies, Katherine A. ;
Fitzgibbon, Cheree ;
Young, Samuel N. ;
Garnish, Sarah E. ;
Yeung, Wayland ;
Coursier, Diane ;
Birkinshaw, Richard W. ;
Sandow, Jarrod J. ;
Lehmann, Wil I. L. ;
Liang, Lung-Yu ;
Lucet, Isabelle S. ;
Chalmers, James D. ;
Patrick, Wayne M. ;
Kannan, Natarajan ;
Petrie, Emma J. ;
Czabotar, Peter E. ;
Murphy, James M. .
NATURE COMMUNICATIONS, 2020, 11 (01)
[5]   Identification of RIP1 kinase as a specific cellular target of necrostatins [J].
Degterev, Alexei ;
Hitomi, Junichi ;
Germscheid, Megan ;
Ch'en, Irene L. ;
Korkina, Olga ;
Teng, Xin ;
Abbott, Derek ;
Cuny, Gregory D. ;
Yuan, Chengye ;
Wagner, Gerhard ;
Hedrick, Stephen M. ;
Gerber, Scott A. ;
Lugovskoy, Alexey ;
Yuan, Junying .
NATURE CHEMICAL BIOLOGY, 2008, 4 (05) :313-321
[6]  
Fitzgibbon C, 2022, METHOD ENZYMOL, V667, P183, DOI 10.1016/bs.mie.2022.03.029
[7]   Conformational interconversion of MLKL and disengagement from RIPK3 precede cell death by necroptosis [J].
Garnish, Sarah E. ;
Meng, Yanxiang ;
Koide, Akiko ;
Sandow, Jarrod J. ;
Denbaum, Eric ;
Jacobsen, Annette V. ;
Yeung, Wayland ;
Samson, Andre L. ;
Horne, Christopher R. ;
Fitzgibbon, Cheree ;
Young, Samuel N. ;
Smith, Phoebe P. C. ;
Webb, Andrew I. ;
Petrie, Emma J. ;
Hildebrand, Joanne M. ;
Kannan, Natarajan ;
Czabotar, Peter E. ;
Koide, Shohei ;
Murphy, James M. .
NATURE COMMUNICATIONS, 2021, 12 (01)
[8]   Manipulation of apoptosis and necroptosis signaling by herpesviruses [J].
Guo, Hongyan ;
Kaiser, William J. ;
Mocarski, Edward S. .
MEDICAL MICROBIOLOGY AND IMMUNOLOGY, 2015, 204 (03) :439-448
[9]   CK1α, CK1δ, and CK1ε are necrosome components which phosphorylate serine 227 of human RIPK3 to activate necroptosis [J].
Hanna-Addams, Sarah ;
Liu, Shuzhen ;
Liu, Hua ;
Chen, She ;
Wang, Zhigao .
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 2020, 117 (04) :1962-1970
[10]   Receptor Interacting Protein Kinase-3 Determines Cellular Necrotic Response to TNF-α [J].
He, Sudan ;
Wang, Lai ;
Miao, Lin ;
Wang, Tao ;
Du, Fenghe ;
Zhao, Liping ;
Wang, Xiaodong .
CELL, 2009, 137 (06) :1100-1111