Abstract: | Colloidal gold particles coated with asialoglycoproteins are bound by hepatocytes as well as by liver macrophages. Binding by both cell types is inhibited by N-acetylgalactosamine and related saccharides and is dependent on the presence of Ca2+. We have now performed an electron microscopic study on receptor anchorage in the plasma membranes. Cells with prebound ligand were treated with 20 mM EDTA at 4 degrees C, washed free of chelator and tested for residual galactose-specific receptor activity. Whereas hepatocytes preserve binding activity (73% of untreated control), liver macrophages lose galactose-specific receptor activity (12% of untreated control). Liver macrophages regain binding activity after a 2 min incubation at 37 degrees C allowing for receptor recycling. If the macrophages were fixed with low glutaraldehyde concentration prior to EDTA treatment they fully retained their receptor activity (74% of control). Ligands were also removed from both cell types by incubation with 80 mM N-acetylgalactosamine. After washing the cells free of the competing monosaccharide, both the hepatocytes as well as the macrophages show full binding activity (120% and 85% of untreated controls). Therefore, membrane anchorage sites of the macrophage receptors are not identical to ligand-binding sites. These results suggest a Ca2+-Mg2+-dependent receptor anchorage on the macrophage plasma membrane. As shown in the accompanying paper (Roos, P.H., Hartmann, H.J., Schlepper-Sch?fer, J., Kolb, H. and Kolb-Bachofen, V. (1985) Biochim. Biophys. Acta 847, 115-121), EDTA-induced dissociation from the membrane can be used for isolation of the galactose-specific receptors of liver macrophages. |