Dichloroacetamide antidotes enhance thiocarbamate sulfoxide detoxification by elevating corn root glutathione content and glutathione S-transferase activity

Abstract

Glutathione (GSH) content and GSH S-transferase activity are consistently increased in corn roots on 24-hr exposure of corn seedlings to part per million levels of N,N-diallyl-2,2-dichloroacetamide (R-25788) and related antidotes for thiocarbamate herbicide injury in susceptible corn varieties. This combined enhancement of enzyme activity and cofactor level leads to rapid detoxification of thiocarbamate sulfoxides, which are proposed to be the active herbicidal compounds formed on metabolic sulfoxidation. S-( N,N-Dipropylcarbamyl)-GSH is formed by this enzyme-catalyzed detoxification of EPTC sulfoxide. This hypothesis on antidote mode of action is supported by studies on 32 dichloroacetamides and related compounds and on the concentration- and time-dependent relationships of R-25788 action. The liver GSH content is normal in mice injected with high doses of R-25788, but the content is reduced when EPTC or EPTC sulfoxide is administered. EPTC sulfoxide also carbamoylates the thiol group of coenzyme A in neutral aqueous medium.