Background: Bispecific antibodies--consisting of a F(ab')-fragment derived from a monoclonal antibody against a tumor epitope as well as of another antibody against a cytotoxic trigger molecule on immune effector cells--can improve the effectiveness of antibody-based tumor therapy.
Materials and methods: We used bispecific antibodies with one specifity against the EGF-receptor, which is overexpressed on the majority of renal cell carcinomas, and another specifity against Fc receptors on human leukocytes (Fc gamma RI/CD64; Fc gamma RIII/CD16 and Fc alpha RI/CD89). As source of effector cells, whole blood from patients treated with G-CSF, GM-CSF or IL2/IFN-alpha was used in 51Cr- release assays using various renal cancer cell lines as tumor targets. Further experiments with Percoll-isolated granulocytes or mononuclear cells from the same donors were performed in order to identify the active effector cell populations.
Results: Compared with conventional monoclonal EGF-R directed antibodies (murine IgG2a, humanized IgG1), bispecific antibodies induced significantly enhanced cytotoxicity. Highest amounts of tumor cell killing were observed using whole blood from patients treated with G-CSF or GM-CSF in combination with an [Fc alpha RI x EGF-R] bispecific antibody. Under these conditions, granulocytes constituted the most active effector cell population.
Conclusion: The combination of myeloid growth factors and bispecific antibodies offer a promising new approach for the treatment of advanced renal cell carcinoma.