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Title: Inhibition of glyoxalase I by the enediol mimic S-(N-hydroxy-N-methylcarbamoyl)glutathione. The possible basis of a tumor-selective anticancer strategy. Author: Hamilton DS, Creighton DJ. Journal: J Biol Chem; 1992 Dec 15; 267(35):24933-6. PubMed ID: 1459997. Abstract: In principle, competitive inhibitors of glyoxalase I that also serve as substrates for the thioester hydrolase glyoxalase II might function as tumor-selective anti-cancer agents, given the role of these enzymes in removing cytotoxic methylglyoxal from cells and the observation that glyoxalase II activity is abnormally low in some types of cancer cells. In support of the feasibility of this anticancer strategy, an inhibitor of this type has been synthesized by a thioester-interchange reaction between glutathione and N-hydroxy-N-methylcarbamate 4-chlorophenyl ester to give S-(N-hydroxy-N-methylcarbamoyl)glutathione (1). This compound was designed to be a tight-binding inhibitor of glyoxalase I, on the basis of its stereoelectronic similarity to the enediol(ate) intermediate that forms along the reaction pathway of this enzyme. Indeed, 1 is a competitive inhibitor of yeast glyoxalase I, with an inhibition constant (Ki = 68 microM) that is approximately 30-fold lower than that reported for S-D-lactoylglutathione and approximately 7-fold lower than the Km for glutathione-methylglyoxal thiohemiacetal. In addition, 1 is a substrate for bovine liver glyoxalase II, with a Km (0.48 mM) approximately equal to that of the normal substrate S-D-lactoyglutathione and a kcat approximately 2 x 10(-5)-fold that of the normal substrate. Membrane transport studies show that 1 can be delivered into human erythrocytes (used here as a model cell) either by direct diffusion of 1 across the cell membrane or by more rapid diffusion of the glycylethyl ester of 1 across the cell membrane, followed by the catalyzed hydrolysis of the ester to give 1.[Abstract] [Full Text] [Related] [New Search]