Natural killer (NK) cells as effectors of antibody-dependent cytotoxicity with chimeric antibodies reactive with human squamous-cell carcinomas of the head and neck.

In patients with cancer, antibody-dependent cellular cytotoxicity (ADCC) may be used as a laboratory test or for enhancing immunotherapy with murine monoclonal or chimeric mouse/human anti-tumor antibodies (mMAbs or cMAbs, respectively). We have established an ADCC assay with IgG1 cMAb SF-25, using human squamous-cell carcinoma of the head and neck (SCCHN) cell lines as targets. By flow cytometry, all SCCHN cell lines tested expressed the antigen recognized by cMAb SF-25. Trypsinization of the cell monolayers facilitated binding of cMAb SF-25 to the antigen on the cell surface of SCCHN targets. Using the PCI-50 SCCHN cell line as a target coated with this cMAb at the optimal concentration of 1.0 micrograms/ml, normal human peripheral blood mononuclear cells (PBMC, n = 28) were found to mediate ADCC at a mean level of 283 +/- 42 (SEM) lytic units (LU20/10(7) effector cells). Non-adherent monocyte-depleted PBMC and natural killer (NK) cells purified by negative selection mediated significantly higher levels of ADCC than unseparated PBMC against SCCHN targets. NK cells, defined as CD3-CD56+ cells, could be effectively armed by cMAb SF-25, as confirmed by flow cytometry and ADCC assays. IL2-activated armed NK cells mediated higher levels of ADCC than non-armed NK cells. Binding of cMAb SF-25 to NK cells and their ADCC were enhanced by pre-incubation with polyethylene glycol. Arming of NK cells with chimeric antibodies should be considered in developing novel strategies for treatment of human SCCHN, especially in the adjuvant setting.