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  • Oxidation of thiodiglycol (2,2'-thiobis-ethanol) by alcohol dehydrogenase: comparison of human isoenzymes.

Oxidation of thiodiglycol (2,2'-thiobis-ethanol) by alcohol dehydrogenase: comparison of human isoenzymes.

Journal of biochemical and molecular toxicology (2000-09-02)
B F Dudley, A A Brimfield, G W Winston
ABSTRACT

Sulfur mustard is a chemical warfare agent that causes blistering of the skin and damages the eyes and airway after environmental exposure. We have previously reported that thiodiglycol (TDG, 2,2'-bis-thiodiethanol), the hydrolysis product of sulfur mustard, is oxidized by alcohol dehydrogenase (ADH) purified from horse liver or present in mouse liver and human skin cytosol. Humans express four functional classes of ADH composed of several different isozymes, which vary in their tissue distribution, some occurring in skin. To help us evaluate the potential contribution of the various human isozymes toward toxicity in skin and in other tissues, we have compared the catalytic activity of purified human class I alphaalpha-, beta1beta1-, beta2beta2-, and gamma1gamma1-ADH, class II pi-ADH, class III chi-ADH, and class IV sigma-ADH with respect to TDG oxidation and their relative sensitivities to inhibition by pyrazole. Specific activities toward TDG were 123, 79, 347, 647, and 12 nmol/min/mg for the class I alphaalpha-, beta1,beta1-, beta2beta2-, and gamma1gamma1-ADH and class II pi-ADH, respectively. TDG was not a substrate for class III chi-ADH. The specific activity of class IV sigma-ADH was estimated at about 1630 nmol/min/mg. 1 mM pyrazole, a potent inhibitor of class I ADH, inhibited the class I alphaalpha, beta1beta1, beta2beta2, and gamma1gamma1 ADH and class IV sigma-ADH by 83, 100, 56, 90, and 73%, respectively. The class I alphaalpha- and beta1beta1-ADH oxidized TDG with kcat/Km value of 7-8 mM(-1) min(-1), beta2beta2-ADH with a value 19 mM(-1) min(-1) and class I gamma1gamma1-ADH with a value of 176 mM(-1) min(-1). The kcat/Km value for class IV sigma-ADH was estimated at 4 mM(-1) min(-1). The activities of class IV sigma-ADH and class I gamma1gamma1-ADH are of significant interest because of their prevalence in eyes, lungs, stomach, and skin, all target organs of sulfur mustard toxicity.