A cytokine gene therapy approach was conducted against metastatic lesions of cytotoxic T lymphocyte (CTL)-unsusceptible tumor in mice. The EBV-based and conventional plasmid vectors that encode murine interleukin-12 (IL-12) gene (pGEG.mIL-12 and pG.mIL-12, respectively) were intravenously transfected into the mice that had received a subcutaneous inoculation of M5076 sarcoma cells. The pGEG.mIL-12 transfection drastically suppressed the subcutaneous as well as hepatic metastatic tumors, resulting in significant prolongation of survival period of the animals. Although single administration with pG.mIL-12 was not effective, repetitive transfection with the plasmid significantly prolonged the longevity of the mice-bearing the metastatic liver tumors. Multiple transfection with either pGEG.mIL-12 or pG.mIL-12 also suppressed peritoneal carcinomatosis in mice that had been injected with M5076 cells into the peritoneal cavity. It was suggested that a high level IL-12 production elicited by the intravenous delivery of the cytokine gene may be quite effective in inhibiting metastatic and CTL-unsusceptible neoplasms.