Recombinant Human Tumor Necrosis Factor and Its Intracellular Hydroxyl Radical Production Induced by Updated Version

This study investigated the effect of recombinant human tumor necrosis factor (rh I NT') on hydroxyl radical production by established cell lines in vitro, and its implication in the killing of tumor cells by rhTNF. During incubation of TNF sensitive mouse tumorigenic fibroblast L-M cells (2 x 10"cells) in the presence of rhTNF (100 U), hydroxyl radical produc tion as detected by the evolution of methane gas from dimethyl sulfoxide increased gradually, at 18 h reaching 1.8 times that in the absence of rhTNF. This increase was dependent on the concentration of rhTNF and was effectively prevented by the simultaneous addition of anti-rhTNF monoclonal antibody III 2F3, which inhibited both the binding of rhTNF to its receptor and the cytotoxic activity of rhTNF. The addition of iron chelator 2,2'-bipyridine, which inhibits iron-catalized Fenton reaction and so inhibits hydroxyl radical generation, suppressed both the increase of hydroxyl radical production and the cytotoxicity induced by rhTNF. A similar increase in hydroxyl radical production in the presence of rhTNF was also detected with TNF-sensitive human myosarcoma-derived KYM cells, but no such increase was detected with TNF insensitive human embryonic lung fibroblast HEL cells. The results show that rhTNF induces increased hydroxyl radical production in TNF-sensitive cells, and suggest that this plays an impor tant role in the mechanism of tumor cell killing by rhTNF.