Selective Elevation of Glutathione Levels in Target Tissues with L-2-Oxothiazolidine-4-Carboxylate (OTC) Protects against Hyperoxia-Induced Lung Damage in Protein-Energy Malnourished Rats: Implications for a New Treatment Strategy , ,

Abstract

It has become recognized that enhancing the antioxidant defense system during the early phase of rehabilitation is important to the survival of wasting protein-energy malnourished (PEM) patients. In this study, we compared the efficacy of dietary protein replenishment and supplementation with L-2-oxothiazolidine-4-carboxylate (OTC, 3.5 mg/d), a cysteine precursor, to protect against hyperoxia-induced lung damage in PEM rats. The PEM rats were produced by feeding weanling rats a protein-deficient diet (0.5% protein) for 14 d. PEM rats were then divided in three dietary treatment groups, 0.5% protein (−Pr), 0.5% protein plus the OTC supplement (+OTC), or 15% protein (+Pr) during 4 d of either hyperoxia (85% O2) or air exposure. Increased lung-to-body weight ratios, indicative of oxidative tissue damage, were observed following exposure to hyperoxia in −Pr and +Pr rats, but not in +OTC rats, even though the OTC supplement and the 15% protein diet contained a comparable amount of cysteine. Tissue reduced glutathione (GSH) status, GSH-dependent enzyme activity and antioxidant defense enzyme activities were monitored in the lung, liver and blood during 4 d of hyperoxia exposure. OTC supplementation enhanced GSH levels significantly in the lung of PEM rats, whereas protein repletion significantly elevated blood GSH concentrations. The protective effect of OTC was not a function of changes in activity of GSH-dependent enzymes or oxygen defense enzymes in the lung. These results indicate that a short-term strategy that selectively elevates GSH levels in the lung is more effective than protein repletion in protecting against hyperoxia-induced oxidative lung damage in PEM rats.