Potential of N-glycan in cell adhesion and migration as either a positive or negative regulator

Abstract

Glycosylation is one of the most abundant posttranslational modification reactions, and nearly half of all known proteins in eukaryotes are glycosylated. In fact, changes in oligosaccharide structure (glycan) are associated with many physiological and pathological events, including cell adhesion, migration, cell growth, cell differentiation and tumor invasion. Glycosylation reactions are catalyzed by the action of glycosyltransferases, which add sugar chains to various complex carbohydrates such as glycoproteins, glycolipids and proteoglycans. Functional glycomics, which uses sugar remodeling by glycosyltransferases, is a promising tool for the characterization of glycan functions. Here, we will focus on the positive and negative regulation of biological functions of integrins by the remodeling of N-glycans with N-acetylglucosaminyltransferase III (GnT-III) and N-acetylglucosaminyltransferase V (GnT-V), which catalyze branched N-glycan formations, bisecting GlcNAc and beta1,6 GlcNAc, respectively. Typically, integrins are modified by GnT-III, which inhibits cell migration and cancer metastasis. In contrast, integrins modified by GnT-V promote cell migration and cancer invasion.

Figure 1

Two major types of protein glycosylation. N-glycans are covalently linked to asparagine (Asn) residue of proteins, specifically the Asn-X-Ser/Thr motif. In contrast, O-glycans are attached to a subset of glycosidically linked hydroxyl groups of the amino acids serine (Ser) and threonine (Thr).

Figure 2

Glycosylation reactions catalyzed by the action of glycosyltransferase GnT-III and GnT-V. The remodeled N-glycans regulate cell adhesion and migration. Enhanced expression of GnT-V in epithelial cells results in a loss of cell-cell adhesion, increasing integrin-mediated cell migration. In contrast, overexpression of GnT-III strengthens cell-cell interaction and downregulates integrin-mediated cell migration, which may contribute to the suppression of cancer metastasis. The β1,6GlcNAc branching is preferentially modified by polylactosamine and other sugar motifs such as sialyl Lewis X, which also contribute to promotion of cancer metastasis. It is worth mentioning that GnT-III could be proposed as an antagonistic of GnT-V, since GnT-V cannot utilize the bisected oligosaccharide as a substrate.