2016
DOI: 10.1038/cdd.2015.169
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Evolutionary divergence of the necroptosis effector MLKL

Abstract: The pseudokinase, MLKL (mixed-lineage kinase domain-like), is the most terminal obligatory component of the necroptosis cell death pathway known. Phosphorylation of the MLKL pseudokinase domain by the protein kinase, receptor interacting protein kinase-3 (RIPK3), is known to be the key step in MLKL activation. This phosphorylation event is believed to trigger a molecular switch, leading to exposure of the N-terminal four-helix bundle (4HB) domain of MLKL, its oligomerization, membrane translocation and ultimat… Show more

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Cited by 106 publications
(163 citation statements)
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“…3C), which we have previously documented to be a hallmark for MLKL activation in fibroblasts treated with necroptotic stimuli TNF/QVD/Cp.A ( Fig. 3C) (15). Indeed, accumulation of activated MLKL at membranes correlated with both macrophage cell death and the secretion of IL-1β ( Fig.…”
Section: Mlkl Oligomerization Membrane Translocation and Cell Deathmentioning
confidence: 99%
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“…3C), which we have previously documented to be a hallmark for MLKL activation in fibroblasts treated with necroptotic stimuli TNF/QVD/Cp.A ( Fig. 3C) (15). Indeed, accumulation of activated MLKL at membranes correlated with both macrophage cell death and the secretion of IL-1β ( Fig.…”
Section: Mlkl Oligomerization Membrane Translocation and Cell Deathmentioning
confidence: 99%
“…Inducible lentiviral MLKL constructs were published previously (7,14,15) and used to stably infect THP1 cells. NF-κB reporter THP1 monocytic cells were made by infection with the lentiviral reporter vector (pTRH1-NF-κB-dscGFP, TR503PA; System Bioscience) and sorted by flow cytometry for GFP expression.…”
Section: Methodsmentioning
confidence: 99%
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“…This is supported by studies investigating the evolutionary origin of necroptosis that uncovered that RIPK3 is absent in many organisms, such as birds and in mammals of the superorder Xenarthra and in the Monotremata, whereas MLKL is present and RIPK1 retains its RHIM domain (44,45). Interestingly, one of the phosphorylation sites in MLKL identified thus far and the intrinsic membrane-permeabilization function of MLKL seem to be conserved, even in species that have lost RIPK3, indicating that other kinases, such as RIPK1, are likely to be additional modulators of MLKL activation (44,46). However, in our study we did not observe that RIPK1 directly phosphorylates MLKL during ConA hepatitis, indicating that, under these experimental conditions, an as-yet-unidentified kinase is likely to activate MLKL by phosphorylation and promote MLKL jci.org Volume 126 Number 11 November 2016…”
Section: Discussionmentioning
confidence: 99%
“…Oligomerized MLKL was suggested to activate sodium or calcium channels in the plasma membrane, thereby disrupting cellular ion homeostasis and resulting in osmotic cell swelling [20,21]. MLKL was also suggested to directly induce plasma membrane permeabilization; a model supported by the fact that recombinant MLKL can induce leakage from phosphatidylinositol phosphate-containing liposomes [22,23,73,74]. Recently, it was proposed that MLKL could form a cation selective channel in the plasma membrane thereby unifying both models [24].…”
Section: Rhim-mediated Interactions Evolved To Activate Necroptosis Imentioning
confidence: 96%