The effector cells mediating antibody dependent cellular cytotoxicity (ADCC) and spontaneous cellular cytotoxicity (SCC) in humans have been reported to possess similar characteristics. Multiple cell separation techniques were employed in an attempt to physically separate and distinguish the effector cells in these two types of cellular cytotoxicity. Subpopulations of mononuclear cells obtained by a variety of fractionation procedures which either enriched or depleted monocytes, lymphocytes bearing a receptor for sheep erythrocytes (SRBC), a receptor for complement (CRL) or an Fc receptor for IgG always had similar effects on both ADCC and SCC. Aggregated gamma globulin blockade of Fc receptors produced similar dose-dependent depressions of ADCC and SCC. Despite our inability to physically separate the effector cells of ADCC and SCC, administration of in vivo dexamethasone caused a relative increase in ADCC but a profound decrease in SCC. Furthermore, in vitro dexamethasone in pharmacologic and suprapharmacologic concentrations caused no change in ADCC but significantly decreased SCC. This study demonstrates that although the effector cells cannot be physically separated, ADCC and SCC are differentially sensitive to corticosteroids and are hence functionally distinct either on the basis of different subsets of effector cells with similar surface markers or different mechanisms of cytotoxicity by the same effector cell.