Acute myeloblastic leukemia (AML) cells were cultured under conditions facilitating or preventing cell to cell contact. Proliferation of AML blasts of 24 patients was assessed in semisolid (containing 0.9% methylcellulose) and in liquid cultures, in which identical concentrations of colony stimulating factors (CSFs) had been provided. In all but one of the cases, significant DNA synthesis (evaluated by 3H-thymidine uptake) was observed when the cells were incubated in the liquid system, whereas in only 14 cases (58%), the cells were able to form clusters or colonies in the semisolid system. These findings suggest that AML cells from a large proportion of patients can proliferate only after stimulation with CSFs in a liquid system, i.e. when cultured under conditions permitting reciprocal contact between the cells. To establish further the importance of cell to cell contact for AML cell proliferation, cells from 19 patients were cultured in liquid medium concurrently in flat bottom microwells (in which a majority of the cells lie separate) and in round bottom microwells (in which cells show a tendency to aggregate). A significantly higher 3H-thymidine (TdR) incorporation in the round bottom cultures was observed in 15 out of 19 cases. The role of the leukocyte function antigens (LFA) LFA1, Mac1, P150-95 in this phenomenon was then analyzed, as these structurally related glycoproteins are involved in reactions requiring contact between hematopoietic cells. Membrane expression of the three antigens was first examined in 16 patients. LFA1, Mac1 and P150-95 were expressed on the AML cells of 15, 6 and 8 patients, respectively. Expression of these antigens did not change following short term incubation of the AML cells in the presence of CSFs. AML cells cultured in presence of saturating concentrations of monoclonal antibodies reacting with structures of these 3 antigens in order to abrogate their function did not suppress 3H-TdR uptake. Thus, no direct role for LFA1 and/or Mac1 and/or P150-95 antigens in mediating contact-induced AML proliferation could be demonstrated. It remains to be established which components are involved in the cell-cell contact-mediated upregulation of AML cell proliferation.