Fluorescence Energy Transfer Reveals Microdomain Formation at Physiological Temperatures in Lipid Mixtures Modeling the Outer Leaflet of the Plasma Membrane

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Fluorescence Energy Transfer Reveals Microdomain Formation at Physiological Temperatures in Lipid Mixtures Modeling the Outer Leaflet of the Plasma Membrane

John R. Silvius

Department of Biochemistry, McGill University, Montréal, Québec H3G 1Y6, Canada

Correspondence: Address reprint requests to John R. Silvius, Rm 8-19 McIntyre Bldg., 3655 rue Drummond, Montreal, Quebec H3G 1Y6, Canada. Tel.: 514-398-7267; Fax: 514-398-7384; E-mail: john.silvius{at}mcgill.ca.

An approach is described using fluorescence resonance energytransfer (FRET) to detect inhomogeneity in lipid organization,on distance scales of the order of tens of nanometers or greater,in lipid bilayers. This approach compares the efficiency ofenergy transfer between two matched fluorescent lipid donors,differing in their affinities for ordered versus disorderedregions of the bilayer, and an acceptor lipid that distributespreferentially into disordered regions. Inhomogeneities in bilayerorganization, on spatial scales of tens of nanometers or greater,are detected as a marked difference in the efficiencies of quenchingof fluorescence of the two donor species by the acceptor. Usinga novel pair of 7-nitrobenz-2-oxa-1,3-diazol-4-yl (NBD)-labeledtetraacyl lipids as donor species with a rhodaminyl-labeledacceptor, this strategy faithfully reports homo- versus inhomogeneousmixing in each of several lipid bilayer systems whose organizationon the FRET distance scale can be predicted from previous findings.Interestingly, however, the present FRET method reports clearevidence of inhomogeneity in the organization of mixtures combiningsphingomyelin or saturated phospholipids with unsaturated phospholipidsand physiological proportions of cholesterol, even at physiologicaltemperatures where these systems have been reported to appearhomogeneous by fluorescence microscopy. These results indicatethat under physiological conditions, lipid mixtures mimickingthe lipid composition of the outer leaflet of the plasma membranecan form domains on a spatial scale comparable to that inferredfor the dimensions of lipid rafts in biological membranes.

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				S. Shnaper, K. Sackett, S. A. Gallo, R. Blumenthal, and Y. Shai The C- and the N-terminal Regions of Glycoprotein 41 Ectodomain Fuse Membranes Enriched and Not Enriched with Cholesterol, Respectively J. Biol. Chem., April 30, 2004; 279(18): 18526 - 18534. [Abstract] [Full Text] [PDF]