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Regulation of Death Receptor Signaling by S-Palmitoylation and Detergent-Resistant Membrane Micro Domains—Greasing the Gears of Extrinsic Cell Death Induction, Survival, and Inflammation

Jürgen Fritsch, Vinzenz Särchen, Wulf Schneider‐Brachert

2021Cancers15 citationsDOIOpen Access PDF

Abstract

Death-receptor-mediated signaling results in either cell death or survival. Such opposite signaling cascades emanate from receptor-associated signaling complexes, which are often formed in different subcellular locations. The proteins involved are frequently post-translationally modified (PTM) by ubiquitination, phosphorylation, or glycosylation to allow proper spatio-temporal regulation/recruitment of these signaling complexes in a defined cellular compartment. During the last couple of years, increasing attention has been paid to the reversible cysteine-centered PTM S-palmitoylation. This PTM regulates the hydrophobicity of soluble and membrane proteins and modulates protein:protein interaction and their interaction with distinct membrane micro-domains (i.e., lipid rafts). We conclude with which functional and mechanistic roles for S-palmitoylation as well as different forms of membrane micro-domains in death-receptor-mediated signal transduction were unraveled in the last two decades.

Topics & Concepts

PalmitoylationCell biologySignal transductionLipid raftProgrammed cell deathUbiquitinCell signalingReceptorSignal transducing adaptor proteinScaffold proteinPhosphorylationBiologyCell surface receptorChemistryBiochemistryCysteineApoptosisEnzymeGeneCell death mechanisms and regulationS100 Proteins and AnnexinsSphingolipid Metabolism and Signaling
Regulation of Death Receptor Signaling by S-Palmitoylation and Detergent-Resistant Membrane Micro Domains—Greasing the Gears of Extrinsic Cell Death Induction, Survival, and Inflammation | Litcius