Abstract
In a previous paper we demonstrated that human peripheral blood mononuclear cells become strikingly cytotoxic toward a wide variety of red blood cell targets after 7 days of in vitro culture. The cell responsible for cytotoxicity does not rosette with SRBC and demonstrates both surface adherence and phagocytic properties. In this paper we wish to show that development of spontaneous cytotoxicity is due to a time-dependent loss of suppressor cell function. Fresh autologous lymphocytes, when added to cultured cells, abrogate the subsequent expression of spontaneous cytotoxicity toward RBC targets. The suppressor cell is radioresistant; requires 24 hr to suppress optimally; is inactivated by heating at 56°C for 15 min, and is enriched in the non-T interface after SRBC rosette depletion over a discontinuous Ficoll-Hypaque gradient. Furthermore, the addition of a cell-free sonicate of fresh lymphocytes is capable of inhibiting spontaneous cytotoxicity toward RBC targets. However, if mononuclear cells are allowed to incubate in tissue culture medium for 7 days they are no longer suppressive after sonication. These data suggest that fresh mononuclear cells exert a potent negative regulatory influence on monocyte killing. Our culture conditions by removing this negative influence have produced a new model of spontaneous nonspecific killing by monocytes.