This study examined the interaction of the poorly metastatic human melanoma cell line M4Be and the highly metastatic clone 4 derived from M4Be, with respect to fresh adherent leukocytes (AL) isolated from 17 different healthy blood donors. These AL contained 80% (73%-93%) monocytes, 15% (6%-20%) B lymphocytes and 5% (1%-8%) T lymphocytes. The survival of these tumor cells against the stress exerted by these AL was estimated with a clonogenic assay where isolated tumor cells were co-cultured for 14 days in contact with AL and lipopolysaccharide (LPS). For a given blood donor, AL either stimulates or inhibits the colony formation of the tumor cells (T) depending on the AL/T ratio, the AL activation status and the metastatic potential of tumor cells. At low AL/T ratios (< 10/1) in the presence of low (8 ng/ml) and trace (8 pg/ml) levels of LPS, hydrogen peroxide (H2O2) release is significantly reduced, and tumor cells significantly increase their colony formation; the feeder effect of AL is suggested to be due to low concentrations of soluble tumor necrosis factor-alpha (TNF-alpha). At high AL/T ratios (> 10/1), whatever the characteristics of the blood donor, clone 4 is significantly more sensitive than M4Be to AL activated with medium containing low (8 ng/ml) or high (1,000 ng/ml) levels of LPS; this killing effect is suggested to be due to TNF-alpha, both soluble and membrane-bound, but not to be due to release of H2O2. These data suggest that the regulatory role of AL, which remove the majority of human melanoma cells and stimulate the colony formation of a small fraction of them, is partly due to TNF-alpha.