T Cell Activation and Cytokine Production in Anti-CD3 Bispecific Antibody Therapy

Abstract

The 38C13 murine lymphoma model was used to examine the role T cell activation plays in anti-CD3-based bispecific antibody therapy by comparing two bispecific antibody preparations that vary in their ability to activate T cells. Prior studies demonstrated that lower dose bispecific IgG (BsIgG) induced nonspecific T cell activation in vitro and in vivo, whereas bispecific F(ab')₂ [bsF(ab')₂] did not. BsIgG was more effective than bsF(ab')₂ at prolonging survival of tumor-bearing mice. BsF(ab')₂ was effective at prolonging survival when used along with IL-2. When used at a lower dose, the antitumor effect of both preparations was specific in that it was limited to cells bearing the target antigen. In contrast, larger doses of bsIgG, but not bsF(ab')₂, resulted in regression of antigen-negative tumor, and so had therapeutic effects that were nonspecific. Serum from mice treated with larger dose bsIgG contained IFN-γ that inhibited the growth of tumor cells in vitro. We conclude that two distinct mechanisms of action are playing a role in the observed antitumor effects. BsF(ab')₂ and lower dose bsIgG inhibit tumor growth by retargeting T cells. Higher dose bsIgG also results in nonspecific T cell activation and systemic cytokine production that induces tumor regression.