Occurrence of Secretory Glycoprotein-Specific GalNAcβ1→4GlcNAc Sequence in N-Glycans in MDCK Cells

Abstract

Many reports show that N-glycans of glycoproteins play important roles in vectorial transport in MDCK cells. To assess whether structural differences in N-glycans exist between secretory glycoproteins and membrane glycoproteins, we studied the N-glycan structures of the glycoproteins isolated from MDCK cells. Polarized MDCK cells were metabolically labeled with [³H]glucosamine, and ³H-labeled N-glycans of four glycoprotein fractions, secretory glycoproteins in apical and basolateral media, and apical and basolateral membrane glycoproteins, were released by glycopeptidase F. The structures of the free N-glycans were comparatively analyzed using various lectin column chromatographies and sequential glycosidase digestion. The four samples commonly contained high-mannose-type glycans and bi- and tri-antennary glycans with a bisected or non-bisected trimannosyl core. However, secretory glycoproteins in both media predominantly contained (sialyl)LacdiNAc sequences, ±Siaα2→6GalNAcβ1→4G1cNAcβ1→R, which linked only to a non-bisected trimannosyl core. β1→4N-acetylgalactosaminyltransferase β4GalNAc-T) activity in MDCK cells preferred non-bisected glycans to bisected ones in accordance with the proposed N-glycan structures. This secretory glycoprotein-predominant LacdiNAc sequence was also found in the case of human embryonic kidney 293 cells. These results suggest that the secretory glycoprotein-specific (sialyl)LacdiNAc sequence and the corresponding β4GalNAc-T are involved in transport of secretory glycoproteins.