IgG2 dominancy and carbohydrate recognition specificity of C3H/He mouse antibodies directed to cross-reactive carbohydrate determinants (CCDs) bearing β-(1,2)-xylose and α-(1,3)-fucose

Abstract

Few common carbohydrate epitopes consisting of terminal β-(1,2)-xylose and/or α-(1,3)-fucose residues are shared by a variety of glycoproteins from plants, insects and parasitic worms, termed cross-reactive carbohydrate determinant (CCD), and frequently recognized by IgE antibodies of patients with food and/or respiratory allergy, though clinical relevancy of such CCD-specific IgE is still controversial. Attention has also been focused on CCDs from the undesired post-translational modification of recombinant therapeutic proteins produced by transgenic plants and insects. In the present study, to clarify immunogenic potentials of CCD-bearing glycoproteins, the antibody response to a model plant glycoprotein, horseradish peroxidase (HRP) was investigated in a mouse model. C3H/He mice were immunized with HRP plus Al(OH) 3 or Freund's adjuvant, and IgG and IgE responses to CCDs in addition to HRP were analyzed by ELISA using some distinct glycoproteins with known N-glycan structures. IgE response to HRP was induced remarkably, whereas that to CCD was weaker and delayed. Moreover, apparent ratio of the CCD-specific antibodies to HRP-specific ones tended to be higher in IgG2a and IgG2b isotypes than IgG1, IgG3 and IgE. In contrast to rabbit antibodies, the CCD-specific antibodies from the mice gave poor reactivity with bromelain and honeybee phospholipase A2, suggesting the critical role of both β-(1,2)-xylose and α-(1,3)-mannose in the CCD-recognition by the mouse antibodies. Moreover, the mouse antibodies showed weaker cross-reactivity to pollen- and insect-derived glycoproteins than the rabbit ones. Thus, in this mouse model, not only IgE but also IgG2 antibody responses to CCDs were induced by immunizing with a CCD-bearing glycoprotein, suggesting that CCDs affected not only Th2-type but also Th1-type antibody response at least in C3H/He mice.