Incorporation of l-[3H]fucose and d-[3H]glucosamine into cell-surface-associated glycoconjugates in epidermis of cultured pig skin slices

Abstract

1. Electron microscope autoradiography indicated that L-[3H]fucose and D-[3H]glucosamine were both incorporated into cell-surface-associated glycoconjugates in the epidermis of cultured pig skin slices. 2. Acid hydrolysis and paper chromatography of skin homogenates confirmed that there was little metabolic conversion of the labeled precursors to other sugars. 3. Epidermis was separated from dermis using CaCl2, and was extracted with 8 M-urea/5% (w/v) sodium dodecyl sulphate and was then analysed by gel electrophoresis. The major component labelled with D-[3H]glucosamine had an apparent molecular weight in excess of 200 000. This material was not labelled with L-[3H]fucose. Lower molecular-weight components were labelled to a similar extent with both L-[3H]fucose and D-[3H]glucosamine. 4. The high molecular-weight material labelled with D-[3H]glucosamine was released into the medium when the epidermal cells were dispersed with trypsin, indicating that it was either surface-associated or was extracellular. It was also labelled with D-[14C]glucuronic acid, 35SO4(2-) and to a small extent with 14C-labelled amino acids indicating that it contained glycosaminoglycans derived from epidermal proteoglycans. This was confirmed by the fact that it was degraded by testicular hyaluronoglucosidase. It was not present in isolated membranes but was recovered in the soluble fraction from epidermal homogenates. It is therefore only very loosely bound at the cell surface or is present in the extracellular spaces. 5. Membrane-bound [3H]glycoproteins were identified after differential centrifugation of epidermal homogenates. The radioactivity profiles of membrane glycoproteins were similar whether L-[3H]fucose or D-[3H]glucosamine were used and both consisted of a major heterogeneous peak in the apparent mol.wt. range 70 000–150 000. [3H]Glycoproteins in this molecular-weight range were also major components of a plasma-membrane-enriched fraction. These glycoproteins were probably bound to the membrane by hydrophobic interactions, since they were only solubilized by treatment with detergent or organic solvent. They contained terminal sialic acid residues, since they were degraded by neuraminidase.