Interaction between Fas and Fas ligand (FasL) induces apoptotic cell death of Fas-positive cells. Expression of FasL on tumors therefore possibly kills activated Fas-positive cytotoxic T cells that infiltrated into the tumors and consequently the tumors can evade from systemic immune responses. Previous studies however showed that forced expression of FasL in tumors induced neutrophil-mediated inflammatory reactions and accordingly produced T cell independent antitumor effects in the inoculated animals. We then analyzed the FasL-mediated antitumor responses with genetically mutated mice. Murine lung carcinoma (A11) cells transfected with the FasL gene (A11/FasL), which was able to kill Fas-positive B cells, did not form subcutaneous tumors and produced few lung spontaneous metastatic foci in immunocompetent mice. The mice that rejected A11/FasL cells developed tumor-specific protective immunity. A11/FasL cells were also rejected in T cell-defective nude mice and in CD18-deficient mice which showed impaired neutrophil functions, but not in Fas-defective (lpr/lpr) mutant mice. Antitumor activities on A11 cells were dependent on the number of co-injected A11/FasL cells but those on irrelevant B16 murine melanoma cells were not produced even with a large number of co-injected A11/FasL cells. In contrast to previous reports, the present study implies that T cells can also be effectors of FasL-mediated antitumor responses and neutrophils are not absolutely required for the responses.