Lysis of nucleated cells by complement was studied to determine whether the lytic process by C5b-9 conforms to a one-hit mechanism as in the case of erythrocytes. Two nucleated cell lines, Molt 4 and U937, derived from human T lymphocytes and histiocytes, respectively, were employed as targets. The antibody-sensitized cells were used to develop the titration curves, measuring cell death as a function of limiting quantities of human C6 or C5,6 complex in the presence of an excess of other complement components. The cytolysis curves generated in both experiments were sigmoidal, in sharp contrast to the monotonic curves observed in lysis of erythrocytes treated similarly. The sigmoidal curves of cytolysis indicate a cooperative action of several molecules of C6 or acid-activated C5,6 complex, C(56)a. In contrast to the multi-hit characteristics of cytolysis, dose-response measurements of the release of 86Rb indicated that only one effective molecule of C6 per cell is required for assembly of a 86Rb-releasing channel. This divergence indicates that lysis requires formation of several channels or, alternatively, assembly of large channels that are formed by several molecules of C6. Because prior studies with erythrocyte ghosts have shown that only a single effective molecule of C6 is required for assembly of a transmembrane channel, regardless of size, we prefer to interpret the multi-hit characteristics of nucleated cell lysis as an indication of a multi-channel requirement, rather than channel enlargement.