Journal article
Human RIPK3 C-lobe phosphorylation is essential for necroptotic signaling
Y Meng, CR Horne, AL Samson, LF Dagley, SN Young, JJ Sandow, PE Czabotar, JM Murphy
Cell Death and Disease | SPRINGERNATURE | Published : 2022
Open access
Abstract
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. ..
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Awarded by State Government of Victoria
Funding Acknowledgements
We acknowledge scholarship support for YM (Melbourne Research Scholarship; AINSE PGRA scholarship). We are grateful to the National Health and Medical Research Council for fellowship (PEC, 1079700; JMM, 1172929), grant (ALS and JJS, 2002965) and infrastructure (IRIISS 9000719) support; and the Victorian Government Operational Infrastructure Support scheme.