BISPECIFIC ANTIBODIES RETARGET MURINE T-CELL CYTOTOXICITY AGAINST SYNGENEIC BREAST-CANCER IN-VITRO AND IN-VIVO

Bispecific antibodies with specificity for CD3 and a tumor antigen can redirect cytolytic T cells to kill tumor targets, regardless of their natural specificity, To assess the clinical potential of bispecific a ntibodies for treatment of human cancers we have, in the present study , adapted a totally syngeneic mouse model to the targeting of mouse T cells against mouse tumors in immunocompetent mice. We show that gp52 of the mouse mammary tumor virus (MTV) can serve as a tumor-specific a ntigen for redirected cellular cytotoxicity. Chemically crosslinked an d genetically engineered bispecific antibodies with specificities for gp52 and murine CD3 epsilon-chain induced activated mouse T cells to s pecifically lyse mouse mammary tumor cells from cultured lines and pri mary tumors from C3H-MTV(+) mice. Retargeted T cells also blocked the growth of mammary tumors in vitro as well as their growth in syngeneic mice, These findings identify murine MTV-induced mammary adenocarcino mas as a solid-tumor, animal model for retargeting T cells with bispec ific antibodies against syngeneic breast cancer.