Dynamic assembly and interaction of glycosphingolipids in cholesterol-containing model membranes

Abstract

Abstract Glycosphingolipids (GSLs) in the mammalian plasma membrane are essential for various biological events that occur on cell membranes by forming glycolipid-rich membrane domains, such as lipid rafts. Lactosylceramide (LacCer) forms a highly ordered phase in model and biological membranes. However, the details of this domain remain unclear. We examined the dynamic assembly of LacCer in cholesterol-containing phase-separated membranes by fluorescence imaging and solid-state NMR. Solid-state 2H NMR of the deuterated LacCer probes in the membranes indicated that the potent LacCer–LacCer interaction significantly reduced the incorporation of cholesterol in the LacCer domains. Moreover, increasing the amount of cholesterol induced the formation of nanometer-scale LacCer domains, which can be biologically relevant. The lateral interaction of ganglioside GM3 with the epidermal growth factor receptor (EGFR) transmembrane segment was examined using fluorescence spectroscopy under membrane conditions. Lateral FRET between the NBD fluorophore on the EGFR transmembrane segment and the ATTO594 fluorophore on the GM3 head group suggested that GM3 interacts with the transmembrane segment and partially inhibits the EGFR dimerization by stabilizing the peptide monomer. More precise investigations of GSL–GSL and GSL-protein interactions occurring in membrane environments can lead to the elucidation of the cellular functions of GSL from structural points of view.