We have studied the cytotoxic profile and distribution of lymphocyte subsets of patients with acute myelogenous leukemia in second remission, after continuous infusion with recombinant interleukin-2 (IL-2). The patients received repetitive cycles of 1-1.25 x 10(6) U/m2/day of IL-2, given as 4 days continuous intravenous infusion followed by a 3-day treatment-free interval for the first 4 weeks. Patients receiving greater than 4 cycles were treated with the same dose of IL-2 continuously for 4 days, followed by a 10-day treatment-free interval. These studies showed that IL-2 treatment resulted in the generation of peripheral blood cytotoxic activity against both NK-susceptible, K-562, and NK-resistant Daudi cell lines. In most patients, enhancement of lytic activity increased with the number of IL-2 infusions. The cytotoxicity in some patients increased as much as 700-fold and 830-fold against K-562 and Daudi cells, respectively. It is of importance that oncolytic activity was also induced in bone marrow compartment (up to 182-fold against K-562). Some decline in cytotoxicity was observed within 14 days after initiation of IL-2 infusion in peripheral blood, but high levels of lytic activity persisted at this time in bone marrow. It is of interest to note that the cytotoxicity of in vivo IL-2 primed lymphocytes was further potentiated by IL-2 in vitro. Importantly, the cytotoxic cells induced in vitro displayed lytic activity against fresh leukemic blasts. Phenotypic analysis demonstrated that CD3-, CD56+ NK cells were significantly increased by in vivo IL-2 treatment (34 to 47-fold in absolute numbers), while CD3-, CD56+ T-cell subset remained low. Characterization of cytotoxic cells using the complement-dependent assay and monoclonal antibodies indicated that both the in vivo-induced and ex vivo-potentiated lytic function was mediated by CD3-, CD56+, CD16- -NK cells.