Hybrid and Nonhybrid Lipids Exert Common Effects on Membrane Raft Size and Morphology

Overview

Journal J Am Chem Soc

Publisher American Chemical Society

Specialty Chemistry

Date 2013 Sep 18

PMID 24041024

Citations 32

Authors

Frederick A Heberle

Milka Doktorova

Shih Lin Goh

Robert F Standaert

John Katsaras

Gerald W Feigenson

Affiliations

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Abstract

Nanometer-scale domains in cholesterol-rich model membranes emulate lipid rafts in cell plasma membranes (PMs). The physicochemical mechanisms that maintain a finite, small domain size are, however, not well understood. A special role has been postulated for chain-asymmetric or hybrid lipids having a saturated sn-1 chain and an unsaturated sn-2 chain. Hybrid lipids generate nanodomains in some model membranes and are also abundant in the PM. It was proposed that they align in a preferred orientation at the boundary of ordered and disordered phases, lowering the interfacial energy and thus reducing domain size. We used small-angle neutron scattering and fluorescence techniques to detect nanoscopic and modulated liquid phase domains in a mixture composed entirely of nonhybrid lipids and cholesterol. Our results are indistinguishable from those obtained previously for mixtures containing hybrid lipids, conclusively showing that hybrid lipids are not required for the formation of nanoscopic liquid domains and strongly implying a common mechanism for the overall control of raft size and morphology. We discuss implications of these findings for theoretical descriptions of nanodomains.

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