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Novel immunogenicity of Thomsen-Friedenreich disaccharide obtained by a molecular rotation on its carrier linkage.
The alpha-anomeric Galbeta1-3GalNAc, called Thomsen-Friedenreich disaccharide (TFD), is overexpressed in epithelial cancer cells by aberrant O-glycosylation. TFD is also the main ligand of Agaricus bisporus lectin (ABL), a reversible noncytotoxic inhibitor of proliferation of epithelial cell lines. In order to obtain anti-TFD antibody response with a fine carbohydrate-binding specificity similar to that of ABL, we designed an immunogen of TFD with a molecular rotation on its carrier linkage that exposes more GalNAc than Gal, since ABL recognizes GalNAc more than Gal in TFD. The synthesis was accomplished by C-6 oxidation of Gal from TFD or its alpha-benzyl derivative (BzlalphaTFD), followed by reductive amination between the C-6 aldehyde yielded and the available amine of protein. Mice immunized with TFD-KLH (keyhole limpet hemocyanin) or BzlalphaTFD-KLH produced antibodies which were then analyzed by ELISA against several target antigens. Both immunogens raised anti-KLH antibody titers; however, TFD-KLH did not raise anti-TFD antibodies showing low TFD immunogenicity. In contrast, BzlalphaTFD-KLH gave much higher anti-TFD antibody response, indicating that benzyl residue helps improve anti-carbohydrate immune response. When IgG and IgM anti-TFD antibodies were analyzed by competitive ELISA using TFD-related carbohydrates as inhibitors, a high specificity to TFD as well as an enhanced binding to GalNAc over Gal were observed. The axial C-4 hydroxyl group of GalNAc interacted with IgG anti-TFD antibody, as evidenced by the lack of inhibitory activity of GlcNAc in contrast to GalNAc. These findings indicate that the anti-TFD antibodies have fine carbohydrate-binding specificity more similar to ABL than to other TFD-binding proteins that stimulate proliferation of epithelial cell lines.
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