1. Role of galectin-3 as a receptor for advanced glycosylation end products
- Author
-
Lorena Amadio, Roberto Gradini, Gaetano Leto, Fu-Tong Liu, Carla Iacobini, Flavia Pricci, Samantha Cordone, Giuseppe Pugliese, Umberto Di Mario, G. Romeo, and P. Barsotti
- Subjects
Glycation End Products, Advanced ,Signal peptide ,Glycosylation ,Galectin 3 ,RNA Splicing ,Biology ,AGE-receptor ,RAGE (receptor) ,Diabetes Complications ,chemistry.chemical_compound ,diabetic complications ,Animals ,Humans ,Galectin-3 ,Receptor ,Cell adhesion ,chemistry.chemical_classification ,Cell Cycle ,nonenzymatic glycation ,cell adhesion ,Cell cycle ,Antigens, Differentiation ,chemistry ,Biochemistry ,Nephrology ,Advanced glycation end-product ,glycosylation end products ,Glycoprotein - Abstract
Role of galectin-3 as a receptor for advanced glycosylation end products. The advanced glycosylation end product (AGE)-binding proteins identified so far include the components of the AGE-receptor complex p60, p90 and galectin-3, receptor for advanced glycosylation end products (RAGE), and the macrophage scavenger receptor types I and II. Galectin-3 interacts with β-galactoside residues of several cell surface and matrix glycoproteins through the carbohydrate recognition domain and is also capable of peptide–peptide associations mediated by its N-terminus domain. These structural properties enable galectin-3 to exert multiple functions, including the modulation of cell adhesion, the control of cell cycle, and the mRNA splicing activity. Moreover, in macrophages, astrocytes, and endothelial cells, galectin-3 has been shown to exhibit a high-affinity binding for AGEs; the lack of a transmembrane anchor sequence or signal peptide suggests that it associates with other AGE-receptor components rather than playing an independent role as AGE-receptor. In tissues that are targets of diabetic vascular complications, such as the mesangium and the endothelium, galectin-3 is not expressed or only weakly expressed under basal conditions, at variance with p90 and p60 but becomes detectable with aging and is induced or up-regulated by the diabetic milieu, which only slightly affects the expression of p90 or p60. This (over)expression of galectin-3 may in turn modulate AGE-receptor-mediated events by modifying the function of the AGE-receptor complex, which could play a role in the pathogenesis of target tissue injury. Up-regulated galectin-3 expression may also exert direct effects on tissue remodeling, independently of AGE ligands, by virtue of its adhesive and growth regulating properties.
- Published
- 2000
- Full Text
- View/download PDF