Distribution of Glycolipids in the Plasma Membrane Monitored by Specific Probes in Combination with Sodium Dodecyl Sulfate-Digested Freeze-Fracture Replica Labeling (SDS-FRL)

Abstract

Glycolipids are mainly distributed in the outer leaflet of the plasma membrane and are involved in cellular signaling by modulating the activity of cell surface receptor proteins. Glycolipids themselves also work as cell surface receptors of bacterial toxins. Anti-glycolipid antibodies are associated with various pathological conditions. The cellular distribution of glycolipids has been studied using specific toxins or antibodies. However, these proteins are multivalent and thus potentially induce the artificial aggregation of glycolipids. Since chemical fixative such as paraformaldehyde does not fix glycolipids, an alternative methodology is required to localize glycolipids with multivalent probes. Sodium dodecyl sulfate-digested freeze-fracture replica labeling (SDS-FRL) physically fixes glycolipids on the cast after quick freezing. Thus, SDS-FRL provides the opportunity to observe the natural distribution of glycolipids using multivalent probes. Here, we describe the application of SDS-FRL on the cell surface distribution of phosphatidylglucoside.

Keywords: Anti-glycolipid antibody; Cluster analysis; Ganglioside GM1; Lipid domains; Phosphatidylglucoside; Transmission electron microscopy (TEM).