We have analyzed the effects of IL-15, a growth factor with IL-2-like properties produced by dendritic and stromal cells, on 3 GM-CSF/IL-3-dependent AML cell lines: M-07e, UT-7 and TF-1. M-07e cells proliferated in response to IL-15, while UT-7 and TF-1 cells failed to respond. In addition, IL-15 supported long-term proliferation of M-07e cells, thus allowing selection of a subline (M-07SB), which displayed an enhanced sensitivity to IL-15. M-07e and M-07SB cells undergo apoptosis following 48-hr growth factor (GM-CSF or IL-15) starvation, as detected by cytofluorimetric analysis and DNA laddering. IL-15 (20 ng/ml) prevented apoptosis in both cell lines. M-07e and M-07SB expressed IL-2R beta, IL-2R gamma, Jak-1 and Jak-3 mRNA, while IL-15R alpha mRNA was undetectable. In contrast, IL-15R alpha was expressed in UT-7 and TF-1 cells, which lacked expression of IL-2R beta mRNA and, in the case of UT-7, also of Jak-3 mRNA. Accordingly, surface IL-2R beta protein was identified only in M-07e and M-07SB cells, by indirect immunofluorescence, while no expression of IL-2R alpha and IL-15R alpha was detected. Anti-IL-2R beta antibodies (10 microg/ml) efficiently blocked (90% inhibition) the proliferation and the anti-apoptotic effect induced by IL-15, while anti-GM-CSFR alpha antibodies had no effect. Anti-IL-2R gamma antibodies were less efficient at proliferation inhibition but synergized with suboptimal concentrations of anti-IL-2R beta antibodies. Our data suggest a role of IL-15 as an anti-apoptotic and mitogenic growth factor for a subset of myeloid leukemias expressing a functional IL-2R beta/gamma complex.