Antibody variable region glycosylation: position effects on antigen binding and carbohydrate structure.

AUTOR(ES)

Wright, A

RESUMO

The presence of N-linked carbohydrate at Asn58 in the VH of the antigen binding site of an antibody specific for alpha(1----6)dextran (TKC3.2.2) increases its affinity for dextran 10- to 50-fold. Site-directed mutagenesis has now been used to create novel carbohydrate addition sequences in the CDR2 of a non-glycosylated anti-dextran at Asn54 (TST2) and Asn60 (TSU7). These antibodies are glycosylated and the carbohydrates are accessible for lectin binding. The amino acid change in TSU7 (Lys62----Thr62) decreases the affinity for antigen; however, glycosylation of TSU7 increased its affinity for antigen 3-fold, less than the greater than 10-fold increase in affinity seen for glycosylated TKC3.2.2. The difference in impact of glycosylation could result either from the position of the carbohydrate or from its structure; unlike the other antibodies, TSU7 attaches a high mannose, rather than complex, carbohydrate in CDR2. In contrast, glycosylation of TST2 at amino acid 54 inhibits dextran binding. Thus slight changes in the position of the N-linked carbohydrate in the CDR2 of this antibody result in substantially different effects on antigen binding. Unlike what was observed for the anti-dextrans, a carbohydrate addition site placed in a similar position in an anti-dansyl is not utilized.

Documentos Relacionados

• Structure of a single-chain antibody variable domain (Fv) fragment complexed with a carbohydrate antigen at 1.7-A resolution.
• Effects of sunlight on bacteriophage viability and structure.
• Effects on RNAi of the tight structure, sequence and position of the targeted region
• Diseases of abnormal protein glycosylation: an emerging area.
• Development of biologically active peptides based on antibody structure.