Literature DB >> 27720987

Death Receptor 5 Networks Require Membrane Cholesterol for Proper Structure and Function.

Andrew K Lewis1, Christopher C Valley1, Stephen L Peery1, Benjamin Brummel1, Anthony R Braun1, Christine B Karim2, Jonathan N Sachs3.   

Abstract

Death receptor 5 (DR5) is an apoptosis-inducing member of the tumor necrosis factor receptor superfamily, whose activity has been linked to membrane cholesterol content. Upon ligand binding, DR5 forms large clusters within the plasma membrane that have often been assumed to be manifestations of receptor co-localization in cholesterol-rich membrane domains. However, we have recently shown that DR5 clusters are more than just randomly aggregated receptors. Instead, these are highly structured networks held together by receptor dimers. These dimers are stabilized by specific transmembrane helix-helix interactions, including a disulfide bond in the long isoform of the receptor. The complex relationships among DR5 network formation, transmembrane helix dimerization, membrane cholesterol, and receptor activity has not been established. It is unknown whether the membrane itself plays an active role in driving DR5 transmembrane helix interactions or in the formation of the networks. We show that cholesterol depletion in cells does not inhibit the formation of DR5 networks. However, the networks that form in cholesterol-depleted cells fail to induce caspase cleavage. These results suggest a potential structural difference between active and inactive networks. As evidence, we show that cholesterol is necessary for the covalent dimerization of DR5 transmembrane domains. Molecular simulations and experiments in synthetic vesicles on the DR5 transmembrane dimer suggest that dimerization is facilitated by increased helicity in a thicker bilayer. Copyright Â
© 2016. Published by Elsevier Ltd.

Entities:  

Keywords:  cholesterol-rich membrane domains; disulfide bond; ligand/receptor clustering; replica exchange molecular dynamics; transmembrane domain

Mesh:

Substances:

Year:  2016        PMID: 27720987      PMCID: PMC5394796          DOI: 10.1016/j.jmb.2016.10.001

Source DB:  PubMed          Journal:  J Mol Biol        ISSN: 0022-2836            Impact factor:   5.469


  79 in total

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