Interaction of IgG3 Anti-streptococcal Group A Carbohydrate (GAC) Antibody with Streptococcal Group A Vaccine: Enhancing and Inhibiting Effects of Anti-GAC, Anti-isotypic, and Anti-idiotypic Antibodies
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Enhancement of binding of one monoclonal antibody to an antigen in the presence of a second monoclonal antibody (specific for an independent epitope on the same antigen) has been observed for several antigen-antibody systems involving primarily protein, or glycoprotein, antigens. We have analyzed the interaction between radiolabeled IgG3 kappa anti-streptococcal group A carbohydrate (GAC) antibody (125I-HGAC 39) and streptococcal group A vaccine (GAV; traditionally used to elicit anti-GAC antibody) in the absence and presence of unlabeled anti-GAC antibodies, anti-isotypic antibodies, or anti-idiotypic antibodies, respectively. A variety of significant enhancing or inhibiting effects on the binding of 125I-HGAC 39 to solid-phase GAV (GAVsp) were noted. First, high concentrations of IgG3 anti-GAC antibodies specifically inhibit binding of 125I-HGAC 39 to GAVsp, but the presence of lower concentrations of IgG3 anti-GAC antibodies is associated with markedly increased (up to 300 to 400%) binding of 125I-HGAC 39 to GAVsp. In contrast, with the concentrations used, IgM anti-GAC antibodies only inhibit binding of 125I-HGAC 39 to GAVsp. A monoclonal anti-gamma 3 antibody (2E.6) also enhances binding (up to 700%) of 125I-HGAC 39 to GAVsp, whereas another high-affinity anti-isotypic antibody, anti-C kappa (187.1), only inhibits binding of 125I-HGAC 39 to GAVsp. In a similar manner, an antiidiotypic antibody (anti-IdX) specific for a framework idiotope located near the C kappa domain inhibits the interaction between 125I-HGAC 39 and GAVsp. Evidence is presented to suggest that neither anti-C kappa nor anti-IdX blocks the HGAC 39 paratope, and therefore, the inhibition of binding mediated by these antibodies must be on some other basis. An alternative explanation for this effect, on the basis of the impairment of functional bivalency of 125I-HGAC 39, is discussed. Finally, anti-idiotypic antibodies (anti-IdI-3a and anti-IdI-1) that bind closer to the antigen-binding site of HGAC 39 inhibit binding of 125I-HGAC 39 to GAVsp in a manner that is most readily interpreted as competition for the GAC-binding site (or nearby sites) on the HGAC 39 variable domain. These effects are shown to require specific immunologic recognition of either GAVsp or 125I-HGAC 39.
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