Raft microdomain localized in the luminal leaflet of inner membrane complex of living Toxoplasma gondii.

Abstract

Membrane microdomains or rafts, sterol- and sphingolipid-rich microdomains in the plasma membrane have been studied extensively in mammalian cells. Recently, rafts were found to mediate virulence in a variety of parasites, including Toxoplasma gondii. However, it has been difficult to examine a two-dimensional distribution of lipid molecules at a nanometer scale. We tried to determine the distribution of glycosphingolipids GM1 and GM3, putative raft components in the T. gondii cell membrane in this study, using a rapid-frozen and freeze-fractured immuno-electron microscopy method. This method physically stabilized molecules in situ, to minimize the probability of artefactual disruption. Labeling of GM3, but not GM1, was observed in the exoplasmic (or luminal), but not the cytoplasmic, leaflet of the inner membrane complex (IMC) in T. gondii infected in human foreskin fibroblast-1 (HFF-1). No labeling was detected in any leaflet of the T. gondii plasma membrane. In contrast to HFF-1, T. gondii infected in mouse fibroblast (MF), labelings of both GM1 and GM3 were detected in the IMC luminal leaflet, although GM1 s gold labeling density was very low. The same freeze-fracture EM method showed that both GM1 and GM3 were expressed in the exoplasmic leaflet of the MF plasma membrane. However, labeling of only GM3, but not GM1, was detected in the exoplasmic leaflet of the HFF-1 plasma membrane. These results suggest that GM1 or GM3, localized in the IMC, is obtained from the plasma membranes of infected host mammalian cells. Furthermore, the localization of microdomains or rafts in the luminal leaflets of the intracellular confined space IMC organelle of T. gondii suggests a novel characteristic of rafts.