Protein glycosylation: nature, distribution, enzymatic formation, and disease implications of glycopeptide bonds

doi:10.1093/glycob/12.4.43R

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Glycobiology, 2002, Vol. 12, No. 4 43R-56R
© 2002 Oxford University Press

MINI REVIEW

Protein glycosylation: nature, distribution, enzymatic formation, and disease implications of glycopeptide bonds

Robert G. Spiro

Departments of Biological Chemistry and Medicine, Harvard Medical School, and the Joslin Diabetes Center, One Joslin Place, Boston, MA 02215, USA

Abstract

Formation of the sugar–amino acid linkage is a crucialevent in the biosynthesis of the carbohydrate units of glycoproteins.It sets into motion a complex series of posttranslational enzymaticsteps that lead to the formation of a host of protein-boundoligosaccharides with diverse biological functions. These reactionsoccur throughout the entire phylogenetic spectrum, ranging fromarchaea and eubacteria to eukaryotes. It is the aim of thisreview to describe the glycopeptide linkages that have beenfound to date and specify their presence on well-characterizedglycoproteins. A survey is also made of the enzymes involvedin the formation of the various glycopeptide bonds as well asthe site of their intracellular action and their affinity forparticular peptide domains is evaluated. This examination indicatesthat 13 different monosaccharides and 8 amino acids are involvedin glycoprotein linkages leading to a total of at least 41 bonds,if the anomeric configurations, the phosphoglycosyl linkages,as well as the GPI (glycophosphatidylinositol) phosphoethanolaminebridge are also considered. These bonds represent the productsof N- and O-glycosylation, C-mannosylation, phosphoglycation,and glypiation. Currently at least 16 enzymes involved in theirformation have been identified and in many cases cloned. Theirintracellular site of action varies and includes the endoplasmicreticulum, Golgi apparatus, cytosol, and nucleus. With the exceptionof the Asn-linked carbohydrate and the GPI anchor, which aretransferred to the polypeptide en bloc, the sugar–aminoacid linkages are formed by the enzymatic transfer of an activatedmonosaccharide directly to the protein. This review also dealsbriefly with glycosidases, which are involved in physiologicallyimportant cleavages of glycopeptide bonds in higher organisms,and with a number of human disease states in which defects inenzymatic transfer of saccharides to protein have been implicated.

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