A 3-methylcholanthrene-induced fibrosarcoma cell line of BALB/c origin, CMS5j, was co-transfected with cDNA for the p40 and p35 subunits of interleukin-12 (IL-12). Injection of transfected cells producing 5 x 10(3) U IL-12/10(6) cells/ml/day in nude mice with an established fibrosarcoma at a contralateral site efficiently eliminated tumor growth in the early phase (injection on day 0 or 4) but not later (day 8). This effect could be abrogated by simultaneous i.v. injection of antibodies against NK1.1 or ASGM1 (asialoGM1 = ganglio-N-tetraosyl-ceramide), which indicates that natural killer (NK) cells play a major role in tumor eradication or suppression when stimulated by IL-12. In wild-type mice, application of IL-12-secreting CMS5j cells abrogated growth of tumors established 8 days before but not earlier. Based on our experiments with antibody blocking in vivo, all CD4+, CD8+ and ASGM1+ cells are involved in tumor rejection. However, in our system, CD4+ cells or CD8+ cells alone, but not ASGM1+ cells alone, also could lead to tumor rejection. IL-12-engineered fibrosarcoma cells may constitute an efficient and safe system for immunotherapy of cancer.