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Literature DB >> 26488656

Can Specific Protein-Lipid Interactions Stabilize an Active State of the Beta 2 Adrenergic Receptor?

Chris Neale¹, Henry D Herce¹, Régis Pomès², Angel E García³.

Abstract

G-protein-coupled receptors are eukaryotic membrane proteins with broad biological and pharmacological relevance. Like all membrane-embedded proteins, their location and orientation are influenced by lipids, which can also impact protein function via specific interactions. Extensive simulations totaling 0.25 ms reveal a process in which phospholipids from the membrane's cytosolic leaflet enter the empty G-protein binding site of an activated β2 adrenergic receptor and form salt-bridge interactions that inhibit ionic lock formation and prolong active-state residency. Simulations of the receptor embedded in an anionic membrane show increased lipid binding, providing a molecular mechanism for the experimental observation that anionic lipids can enhance receptor activity. Conservation of the arginine component of the ionic lock among Rhodopsin-like G-protein-coupled receptors suggests that intracellular lipid ingression between receptor helices H6 and H7 may be a general mechanism for active-state stabilization.

Entities: Chemical Gene

Mesh：

Substances：

Year: 2015 PMID： 26488656 PMCID： PMC4624154 DOI： 10.1016/j.bpj.2015.08.028

Source DB: PubMed Journal: Biophys J ISSN： 0006-3495 Impact factor: 4.033

111 in total

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