To investigate the significance of host immunity in metastasis we have simultaneously evaluated metastatic development and the tumoricidal action of host defenses in an experimental system for liver metastasis which involves the intrasplenic injection of B16F10 melanoma cells in syngeneic mice. In addition, three experimental groups were treated with immunosuppressive doses of cyclosporin A (CsA) during the following periods of the malignant process: 1st-5th days, 1st-12th days and 7th-12th days. Analysis of cytolytic effects of macrophages, NK cells and T-lymphocytes on tumor cells reveals a decay in antitumor immunity from the 7th day to the 12th day and a marked resistance of B16F10 melanoma cells derived from hepatic metastases to T-lymphocytes and NK cells. The 1st-5th day CsA treatment of tumor-bearing mice produced a reduction in both T-lymphocyte and macrophage reactions against tumor cells and a significant increase in the 7th day micrometastasis incidence in the liver. Once micrometastases have been established the CsA-treatment suppression on the 5th day allows the tumor growth rate in these mice to become the same as in controls. However, the 7th-12th day CsA treatment produces a clear inhibitory effect on focal metastatic development which may correspond to the in vitro antiproliferative effect of CsA, detected on cultured B16F10 melanoma cells.