Reduction in MLKL-mediated endosomal trafficking enhances the TRAIL-DR4/5 signal to increase cancer cell death

Se-Yeon Park,You-Sun Kim,Han-Hee Park,Seongmin Yoon,Michael J Morgan,Sang-Yeong Park,Sun Mi Hong

doi:10.1038/s41419-020-02941-9

Se-Yeon Park, You-Sun Kim + Show 5 more

Open Access

https://doi.org/10.1038/s41419-020-02941-9

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Abstract

Mixed lineage kinase domain-like (MLKL) is an essential molecule of necroptosis, a cell death process that is initiated by direct disruption of the plasma membrane. During necroptosis, MLKL is phosphorylated by receptor interacting protein kinase-3 (RIPK3 or RIP3), and then translocates to the plasma membrane to disrupt membrane integrity. Recent data suggest that MLKL also has a RIP3-indendent function in the generation of intraluminal and extracellular vesicles (EVs), as well as in myelin sheath breakdown when promoting sciatic nerve regeneration. Here we show that depletion of MLKL enhances TRAIL-induced cell death in a RIP3-independent manner. Depletion of MLKL leads to prolonged cytotoxic signals that increase TRAIL-induced cell death. Initially, TRAIL binds to DR5 at the cell surface and is endocytosed at similar rates in MLKL-expressing and MLKL-depleted cells, eventual degradation of intracellular TRAIL by the lysosome is delayed in MLKL-depleted cells, corresponding with prolonged/enhanced intracellular signals such as p-ERK and p-p38 in these cells. Colocalization of TRAIL with the marker of early endosomes, EEA1 suggests that TRAIL is accumulated in early endosomes in MLKL-depleted cells compared to MLKL-expressing cells. This indicates that depletion of MLKL reduces receptor-ligand endosomal trafficking leading to increased TRAIL-cytotoxicity. An MLKL mutant that compromises its necroptotic function and its function in the generation of EVs was sufficient to rescue MLKL deficiency, suggesting that the N-terminal structural elements necessary for these functions are not required for the function of MLKL in the intracellular trafficking associated with regulating death receptor cytotoxicity. A reduction in MLKL expression in cancer cells would therefore be expected to result in enhanced TRAIL-induced therapeutic efficacy.

Highlights

Mixed lineage kinase domain-like (MLKL) has been identified as a key molecule of necroptosis[1,2,3]
MLKL depletion potentiated TRAIL-induced cell cytotoxicity, and cell death induced by TNFα in combination with SMAC mimetic (Supplementary Fig. 2a)
This finding suggests that multiple ligand-receptor complex interactions and/or endosomal trafficking events are being regulated by MLKL

Summary

Introduction

Mixed lineage kinase domain-like (MLKL) has been identified as a key molecule of necroptosis[1,2,3]. MLKL is required to form the necrosome complex with receptorinteracting protein kinases 1 and 3 (RIPK1 or RIP1;RIPK3 or RIP3), and RIP3-dependent plasma membrane localization of MLKL is necessary for programmed necrotic cell death to occur[4,5,6]. Recent data suggest that MLKL has alternative functions that occur independent of RIP3. Yoon et al, reported that MLKL affected endosomal transport by promoting the generation of intraluminal and extracellular vesicles, a function which was independent of RIP39. They observed that MLKL depletion reduced the rates of intracellular degradation of some ligands and their receptors and suggested that this was due to decreased MLKL-dependent endosomal trafficking.

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