B-78-H1 melanoma cells were stably transfected with cDNAs encoding human IL-6, human LIF, murine sIL-6R and murine sLIFR. The mock transfected and transfected cells demonstrated no detectable H-2Kb molecules. B-78 transfected cells were subcutaneously (s.c.) and intravenously (i.v.) injected to B57BL/6 x C3H mice. Control B-78 cells formed tumors and lung metastases in injected animals. Cells transfected with IL-6, LIF and sIL-6R showed greatly reduced tumor and metastases formation. Transfection of IL-6, sIL-6R or LIF had similar protective effects while the combination of IL-6 and sIL-6R was most effective. In contrast, cells transfected with sLIFR showed reduced metastasis formation but increased tumor growth compared to mock transfected cells. Kinetic analysis demonstrated a 3 weeks lag period between the formation of tumors by B-78 cells and the combination of B-78 cells transfected with IL-6 and sIL-6R. No such lag phase was seen when B-78-IL-6 or B-78-sIL-6R cells were injected alone. Mice primarily injected s.c. with a mixture of IL-6 and sIL-6R transfected cells and rechallenged after 2 weeks with parental B-78 cells demonstrated long-lasting antitumor immunity. IL-6 and sIL-6 transfected cells used alone for immunization had only limited effect. Injection of transfected cells into SCID mice which are characterized by greatly reduced number of T and B cells, showed a protective effect of sIL-6R on metastasis formation by B-78 cells. beta 2m knockout mice lacking CD8+ T cells, injected with B-78 cells developed tumors and died after 2 weeks. However, B-78 cells transfected with IL-6 developed tumors in only 50% of animals. Mice without tumors rechallenged with B-78 cells demonstrated required immunity against parental melanoma cells. The results obtained indicate that studied IL-6-type cytokines and their respective soluble receptors affect murine melanoma growth and metastasis formation. The major finding of these studies is that IL-6 complexed with sIL-6R demonstrated qualitatively different biological activity than IL-6 alone especially in stimulating long lasting anti-melanoma immunity. The proposed mechanism of action of such complexes beside activation of cytotoxic T lymphocytes is activation of NK cells.