Insulin-like growth factor-1 (IGF-1) is expressed in many tumor cell lines and has a role in both normal cell proliferation and in the growth of cancers. Tumor cells transfected with a vector encoding an IGF-1 antisense cDNA transcriptional cassette driven by the mouse metallothionein-1 promoter become immunogenic and lose their tumorigenicity in syngeneic animals. The enhanced immunogenicity is associated with an up-regulation in the expression of major histocompatibility complex class I molecule on cell surfaces. Blockade of the expression of IGF-1 in tumor cells by the IGF-1 antisense RNA approach is not uniformly effective in the induction of antitumoral protective immunity in low and nonimmunogenic tumor model systems. Here, we report that the immunogenicity of hepa 1-6 hepatoma and SMCC-1 colon carcinoma cells, which are poorly immunogenic and unresponsive to antisense IGF-1 gene transfer, can be induced by cotransfection with genes encoding antisense IGF-1 and mouse B7.1 molecules. The tumor cells modified in this manner become strongly immunogenic and can be used as a cellular vaccine to induce a protective immune response in vivo. Immunization with the transfected tumor cells also results in regression of the established hepa 1-6 hepatoma and SMCC-1 colon cancer. The immunity is tumor-specific and is mediated by CD3+ CD8+ T cells. Cytotoxic T lymphocytes generated in vitro by priming naive spleen cells and in vivo by immunizing mice with the double-transfected tumor cells specifically lysed autologous tumors cells and were effective in adoptive immunotherapy. The data suggest that modification of tumor cells in vitro by cotransfection with genes encoding antisense IGF-1 and B7.1 molecules may open a new avenue for cancer immunogene therapy.