Dynamic modulation of the glycosphingolipid content in supported lipid bilayers by glycolipid transfer protein.

Supported lipid bilayers (SLBs) are popular models of cell membranes. Owing to the importance of glycosphingolipids (GSLs) in modulating structure and function of membranes and membrane proteins, methods to tune the GSL content in SLBs would be desirable. Glycolipid transfer protein (GLTP) can selectively transfer GSLs between membrane compartments. Using the ganglioside GM1 as a model GSL, and two mass-sensitive and label-free characterization techniques-quartz crystal microbalance with dissipation monitoring and ellipsometry-we demonstrate that GLTP is an efficient and robust biochemical tool to dynamically modulate the GSL content of SLBs up to 10 mol % GM1, and to quantitatively control the GSL content in the bulk-facing SLB leaflet. By exploiting what we believe to be a novel tool, we provide evidence that GM1 distributes highly asymmetrically in silica-supported lipid bilayers, with ∼85% of the ganglioside being present in the bulk-facing membrane leaflet. We report also that the pentameric B-subunit of cholera toxin binds with close-to-maximal stoichiometry to GM1 in SLBs over a large range of GM1 concentrations. Furthermore, we quantify the liganding affinity of GLTP for GM1 in an SLB context to be 1.5 µM.

Label-free detection of clustering of membrane-bound proteins.

We report a new and label-free method to detect and characterize the clustering of membrane-bound proteins and, by extension, the lateral segregation of nanosized particles adsorbed to planar surfaces in liquid environment. The method exploits the contrast between two different mass and surface sensitive detection methods, quartz crystal microbalance with dissipation monitoring and ellipsometry. The time-resolved correlation of both techniques provides insight into subtle changes in the clustering state of surface-bound molecules that is not accessible with either technique alone. A theoretical model can provide quantitative predictions about the size of surface-bound clusters.