Pharmacokinetics and metabolism of sodium 2-mercaptoethanesulfonate in the rat

The synthetic low-molecular-weight thiol, 2-mercaptoethanesulfonate (mesna), exerts efficient protection against oxazaphosphorine-induced urothelial toxicity by binding the renally excreted and concentrated toxic metabolite(s). In this study, the pharmacokinetics and metabolism of mesna and its disu...

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Published inCancer research (Chicago, Ill.) Vol. 43; no. 1; p. 333
Main Authors Ormstad, K, Orrenius, S, Låstbom, T, Uehara, N, Pohl, J, Stekar, J, Brock, N
Format Journal Article
LanguageEnglish
Published United States 01.01.1983
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Summary:The synthetic low-molecular-weight thiol, 2-mercaptoethanesulfonate (mesna), exerts efficient protection against oxazaphosphorine-induced urothelial toxicity by binding the renally excreted and concentrated toxic metabolite(s). In this study, the pharmacokinetics and metabolism of mesna and its disulfide form (dimesna) have been investigated in the intact rat and in several in vitro systems, including isolated perfused organs, freshly isolated cells, and subcellular fractions; the mechanism of reduction of dimesna to form the pharmacologically active thiol mesna has been further studied with purified enzyme preparations. The results may be summarized as follows: (a) After p.o. administration, mesna and dimesna are both absorbed from the intestine, and dimesna undergoes reduction to mesna during intestinal absorption; (b) when present in plasma, mesna is rapidly oxidized to dimesna by a metal-dependent reaction; (c) mesna and dimesna pass unchanged through the hepatic vasculature, are not taken up into liver cells, and are not excreted in bile; (d) in the kidney, dimesna is filtered through the glomeruli and subsequently reabsorbed, whereupon reduction to the pharmacologically active thiol form occurs in the renal tubular epithelium, and the thiol is then reexcreted into the tubular lumen; (e) reduction of dimesna to mesna occurs in intestinal and renal epithelial cells by a mechanism involving the cytosolic enzymes thiol transferase and glutathione reductase. Thus, the formation of the pharmacologically active thiol form from dimesna is associated with the consumption of equimolar concentrations of reduced glutathione.
ISSN:0008-5472