Structural diversity in the alpha 2-->8-linked polysialic acid chains in salmonid fish egg glycoproteins. Occurrence of poly(Neu5Ac), poly(Neu5Gc), poly(Neu5Ac, Neu5Gc), poly(KDN), and their partially acetylated forms.

alpha 2-->8-Linked polysialic acid (polySia) chains terminate O-linked oligosaccharide chains on Salmonidae fish egg polysialoglycoproteins (PSGPs). Expression of these surface PSGPs are developmentally regulated and the polySia epitope is functionally implicated in a number of distinct species-specific cell-cell recognition events during fertilization and early embryogenesis. To better understand the functional diversity of these PSGPs, structural studies of the polySia chains isolated from three genera and eight species of Salmonidae fish eggs were carried out by chemical, immunochemical, enzymatic, and 1H NMR methods. A remarkable degree of structural diversity was found, including differences in the N-acyl groups, i.e. N-acetylneuraminic acid (Neu5Ac) or N-glycolylneuraminic acid (Neu5Gc), and in the presence of either O-acetyl substitution at C4, C7, or C9 or O-lactyl substitution at C9. The presence of heteropolymers containing both Neu5Ac and Neu5Gc residues was also an unexpected finding. Accordingly, the different forms of alpha 2-->8-linked homo- and heteropolymers of these polySia structures include: poly(Neu5Ac), poly(Neu5Gc), poly(Neu5,chi Ac2), poly(Neu5Gc chi Ac), poly(Neu5Ac, Neu5Gc), poly-(Neu5Ac, Neu5,chi Ac2), poly(Neu5Ac, Neu5Gc chi Ac), poly(Neu5Gc,Neu5,chi Ac2), and poly(Neu5Gc, Neu5-Gc chi Ac), where chi represents the site of acetylation at carbon atom 4, 7, or 9. The significance of this new structural information, together with our recent finding of alpha 2-->8-linked polydeaminoneuraminic acid, poly(KDN), in the rainbow trout egg vitelline envelope, is that it demonstrates the natural occurrence of multiple forms of alpha 2-->8-linked polySia chains in Salmonidae fish glycoproteins that have not been previously described. The results also predict that a remarkable array of polysialylated glycoconjugates is yet to be discovered in animals other than teleost fishes.