Protective role of sulfhydryl reagents in oxidant lung injury.
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Recently there has been a great deal of interest in exploring possible ways to protect the lung from oxidant damage. Since sulfhydryl compounds are among the most important endogenous antioxidants, their therapeutic use has been proposed. Glutathione (GSH), the main intracellular nonprotein sulfhydryl, plays an important role in the maintenance of cellular proteins and lipids in their functional state. With oxidant stress, GSH acts to protect cell constituents as evidenced by increased turnover to GSSG, formation of mixed disulfides with proteins, utilization of NADPH, and utilization of glucose in the pentose pathway. When GSH is experimentally lowered (e.g., by protein deficiency or with diethylmaleate) the toxic effects of oxidant stress are exacerbated as evidenced by increased membrane and cell damage, pulmonary edema, and mortality. Several recent investigations have shown that sulfhydryl reagents (particularly N-acetyl cysteine, a cell-permeable GSH precursor) can provide significant protection against certain pulmonary toxins. N-acetyl cysteine reduced the lethal effects of 100% O2 in rats by 65%. Therefore, the therapeutic potential of sulfhydryl reagents in the treatment and prevention of oxidant injury and the mechanisms involved are an important direction for lung research.