Abstract
The catalyzed reactions of GSH with organic nitrate and thiocyanate esters and with a series of chloronitrobenzene substrates have been investigated and the results used to formulate a mechanism for glutathione S-transferase catalysis. All the homogeneous preparations of the glutathione transferases that have been tested catalyze the reaction of GSH with organic nitrates and thiocyanates. The nature of the reaction with nitrate esters, resulting in the formation of GSSG rather than a thioether, has been investigated further. The presence of an additional nonsubstrate thiol decreased the formation of GSSG to an extent that cannot be explained by disulfide interchange. These results are interpreted to reflect the enzymatic formation of an unstable glutathione sulfenyl nitrite that undergoes subsequent non-enzymatic decomposition. Hammett plots of the catalytic constants of rat liver transferases B and C obtained with a series of 4-substituted 1-chloro-2-nitrobenzene substrates demonstrate a linear relationship with sigma- substituent constants, reflecting the nucleophilic nature of the enzymatic reactions and their strong dependence on the electrophilicity of the nonthiol substrate. These data suggest that the many diverse reactions catalyzed by the glutathione transferases may be formulated as a nucleophilic attack of enzyme-bound GSH on the electrophilic center of the second substrate. The final products observed reflect this primary event and the existence of subsequent nonenzymatic reactions.
Highlights
IntroductionMetabolism, The catalyzed reactions of GSH with organic nitrate and thiocyanate esters and with a series of chloronitrobenzene substrates have been investigated and the results used to formulate a mechanism for glutathione
From the Section on Enzymes and Cellular Biochemistry, National Institute of Arthritis, and Digestive Diseases, National Institutes of Health, Bethesda, Maryland 20014
Whereas earlier investigations have focused on transferasecatalyzed reactions with substrates bearing electrophilic carbon atoms, results with compounds having electrophilic sulfur or nitrogen atoms are reported here
Summary
Metabolism, The catalyzed reactions of GSH with organic nitrate and thiocyanate esters and with a series of chloronitrobenzene substrates have been investigated and the results used to formulate a mechanism for glutathione. All the homogeneous preparations of the glutathione transferases that have been tested catalyze the reaction of GSH with organic nitrates and thiocyanates. The nature of the reaction with nitrate esters, resulting in the formation of GSSG rather than a thioether, has been investigated further. The presence of an additional nonsubstrate thiol decreased the formation of GSSG to an extent that cannot be explained by disulfide interchange. These results are interpreted to reflect the enzymatic formation of an unstable glutathione sulfenyl nitrite that undergoes subsequent nonenzymatic decomposition
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