The high incidence of breast cancer in women and the severity of the disease have stimulated a need for improved and novel forms of therapy. The product of the MUC-1 gene has been identified as a breast cancer-associated antigen in breast cancer patients. The gene has been cloned and sequenced. Transgenic mice were prepared that express human mucin and are naturally tolerant to the molecule, providing a unique opportunity to investigate immunotherapeutic strategies in experimental animals that might eventually be applied to breast cancer patients. A cell line (410.4) derived from a mouse mammary adenocarcinoma that arose in a BALB/c mouse was transduced with a retroviral vector (R1-MUC1-pEMSVscribe) that encoded MUC-1. After confirmation of the expression of human mucin, the cells (E3) were further modified by transduction with retroviral vectors encoding interleukin (IL)-2, IL-4, IL-12, or IFN-gamma to evaluate the effect of cytokine-secretion on the immunogenic properties of the cells in the MUC-1 transgenic mice. The results indicated that modification of the breast cancer cells to secrete IL-12 reduced and at times eliminated the tumorigenic growth properties of the cells. Under similar circumstances, progressively growing tumors formed in MUC-1 transgenic mice that received injections of unmodified E3 cells or with E3 cells modified to secrete IL-2, IL-4, or IFN-gamma. Immunity to breast cancer developed in MUC-1 transgenic mice that had rejected IL-12-secreting E3 cells because the animals were resistant to challenge with (non-cytokine-secreting) E3 cells. In vitro analyses confirmed the presence of T cell-mediated cytotoxicity toward the breast cancer cells in MUC-1 transgenic mice immunized with the IL-12-secreting cells. Our data obtained in a unique animal model system point toward an analogous form of therapy for breast cancer patients.