Immunochemistry of highly branched N-glycans. Terminal N-acetyl-D-glucosamine (GlcNAc) cluster antigens contain epitopes composed of terminal GlcNAc residues linked to mannose

Abstract

We have previously demonstrated by the immunoperoxidase method the presence of a chicken heterophile antigenic determinant (CHAD-1) in medullary lymphocytes of the bursa of Fabricius and thymus as well as in some nonlymphoid cells. It has been found that the anti-CHAD-1 antibody could be neutralized by absorption with several glycoproteins or glycopeptides containing highly branched, asparagine-linked oligosaccharides terminating in N-acetylglucosamine residues. In the present study, fetuin, desialo-fetuin, and a series of 27 highly purified oligosaccharides with well-defined structures were used to investigate the chemical composition and fine structure of the CHAD-1 epitope. It was shown that anti-CHAD-1 antibody binds to oligosaccharides with at least three terminal N-acetyl glucosamine residues at the nonreducing end. These residues may be linked (β1—2, β1—4, or β1—6 to one, two, or three different mannose residues. The antibody combining site accommodates at least four carbohydrate residues. Oligosaccharides containing five or six terminal N-acetylglucosamine residues at the nonreducing end demonstrated the highest immunoreactivity with the anti-CHAD-1 antibody. Substitution of terminal N-acetylglucosamine residues with galactose, or with galactose and sialic acid, masks CHAD-1. On the basis of this work, epitopes that react with the anti-CHAD-1 antibody will be renamed terminal N-acetylglucosamine cluster antigens (TGCA). Anti-TGCA antibody has potential use in the monitoring of biosynthetic processing of asparagine-linked oligosaccharides and in studies of their cellular distribution and functions.