Toxicity of the sulfhydryl-containing radioprotector dithiothreitol.

The toxicity of the sulfhydryl-containing radioprotective agent dithiothreitol (DTT) has been studied using Chinese hamster V79 cells growing in monolayer in minimal essential medium containing 10% fetal calf serum. DTT at low concentrations (between 0.4 and 1.0 mM) caused cell killing, but higher concentrations (above 2 mM) or lower concentrations (0.1 mM) did not. This DTT-induced toxicity was prevented by catalase, glutathione, the use of serum-free medium, or lowering incubation temperature; was slightly decreased by dimethyl sulfoxide; and was enhanced by some metal chelators but prevented by desferal, an iron chelator. Experiments involving simultaneous exposure of cells to DTT and H2O2 showed that low concentrations of DTT enhanced H2O2-induced toxicity, but high concentrations of DTT prevented the H2O2 toxicity. These results are consistent with the proposal that toxicity results from autoxidation of DTT to produce H2O2, which in turn reacts via the metal-catalyzed Fenton reaction to produce the ultimate toxin, .OH radicals, although chemical studies show that rates of autoxidation of various sulfhydryl compounds do not correlate with the observed toxicity.