Involvement of tumor necrosis factor in cytotoxicity mediated by human monocytes.

Human monocytes cultured in a specially prepared medium free of lipopolysaccharide (LPS) constitutively produced a small, though significant, amount of tumor necrosis factor (TNF). Upon addition of LPS, the amount produced remained constant until the LPS concentration reached 1-10 ng/ml, whereupon the production of TNF dramatically increased, eventually becoming 100-fold greater than when the LPS concentration was below 1 ng/ml. Priming the monocytes with recombinant interferon-gamma (rIFN-gamma) before LPS exposure resulted in a 2- to 10-fold increase in TNF production, the highest relative increase being obtained at lower LPS concentrations and in the absence of LPS. Monocyte-produced TNF appears to be the effector molecule in monocyte-mediated killing of some target cell types, since antiserum against recombinant TNF inhibited killing of both actinomycin D-treated and untreated WEHI 164 cells by human monocytes. However, it also appears that TNF may not in all cases be an effector molecule in monocyte-mediated killing, since cytolysis of K562 cells mediated by IFN-gamma/LPS-activated monocytes was not inhibited by antiserum against recombinant TNF. Antiserum which was raised against a monocyte-derived cytotoxic factor and which neutralized recombinant TNF did, however, inhibit monocyte-mediated cytolysis of K562 cells, suggesting that an extracellular factor, perhaps related to TNF, was also involved in monocyte-mediated killing of K562 cells. A TNF-like activity was associated with the monocyte surface membrane, since paraformaldehyde-fixed monocytes expressed cytotoxic activity which was neutralized by antiserum against recombinant TNF. Fixed monocytes activated with rIFN-gamma in addition to LPS before fixation were generally more cytotoxic than those exposed to LPS alone, and those exposed to LPS were much more cytotoxic than those not exposed to LPS. Thus it is possible that high local TNF concentrations may be generated near the target cell upon direct contact between effector and target cells, and that also monocyte-associated TNF may in this way be involved in monocyte-mediated cytotoxicity.