Mechanisms of Sulfur Mustard-Induced Metabolic Injury

Abstract

Studies on the mechanism of metabolic injury induced by sulfur mustard (2, 2'- dichlorodiethyl sulfide, HD) have demonstrated that exposure of human epidermal keratinocytes in culture to HD induces time- and dose-dependent NAD+ depletion and inhibition of glucose metabolism (Martens, Biochem. Pharmacol., in press). Both occurred relatively early after alkylation, preceding the loss of membrane integrity that is indicative of metabolic cell death. The inhibition of glycolysis induced by HD was only partially correlated with the depletion of NAD+ and, thus, was not simply of changes in the NAD+ level. Rather, HD appeared to induce complex shifts in the pattern of glucose metabolism that paralleled both the timing and degree of injury. In line with these findings, recent experiments have shown that partial protection against HD-induced NAD+ depletion by 1 mM niacinamide did not protect against the inhibition of glycolysis. In preliminary experiments examining the effect of HD- induced metabolic changes on the cellular energy state, dose-dependent depletion of ATP was seen at 24 hours after exposure, but not at 4 or 8 hours. As seen for glucose metabolism, 1 mM niacinamide did not prevent the loss of high-energy intermediate (ATP). We conclude from these studies that relationships among HD exposure, glucose metabolism, and intracellular NAD and ATP are more complex than originally proposed (Papirmeister et al, Fund. Appl. Toxicol. 5:S134, 1985) .

Document Details

Document Type

Technical Report

Publication Date

May 13, 1993

Accession Number

ADP008779

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