ABSTRACT:Trichloroethylene (TCE) and other halogenated alkenes are known environmental contaminants with cytotoxic and nephrotoxic effects, and are potential carcinogens. Their metabolism via the mercapturate metabolic pathway was shown to lead to their detoxification. The final products of this pathway, mercapturic acids or N-acetyl-L-cysteine S-conjugates, are secreted into the lumen in the renal proximal tubule. The proximal tubule may also deacetylate mercapturic acids, and the resulting cysteine S-conjugates are transformed by cysteine S-conjugate -lyases to nephrotoxic reactive thiols. The specificity and rate of mercapturic acid deacetylation may determine the toxicity of certain mercapturic acids; however, the exact enzymologic processes involved are not known in detail. In the present study we characterized the kinetics of the recently cloned mouse aminoacylase III (AAIII) toward a wide spectrum of halogenated mercapturic acids and N-acetylated amino acids. In general, the V max value of AAIII was significantly larger with chlorinated and brominated mercapturic acids, whereas fluorination significantly decreased it. The enzyme deacetylated mercapturic acids derived from the TCE metabolism including N-acetyl-S-(1,2-dichlorovinyl)-L-cysteine (NA-1,2-DCVC) and N-acetyl-S-(2,2-dichlorovinyl)-L-cysteine (NA-2,2-DCVC). Both mercapturic acids induced cytotoxicity in mouse proximal tubule mPCT cells expressing AAIII, which was decreased by an inhibitor of -lyase, aminooxyacetate. The toxic effect of NA-2,2-DCVC was smaller than that of NA-1,2-DCVC, indicating that factors other than the intracellular activity of AAIII mediate the cytotoxicity of these mercapturic acids. Our results indicate that in proximal tubule cells, AAIII plays an important role in deacetylating several halogenated mercapturic acids, and this process may be involved in their cyto-and nephrotoxicity.Trichloroethylene (TCE) and other industrial solvents are shown to cause nephrotoxicity and hepatotoxicity, and are probable human carcinogens (Maltoni et al., 1988;Cummings and Lash, 2000). One of the TCE toxicity mechanisms involves the conjugation with glutathione, which is transformed by ␥-glutamyltransferase and dipeptidase to cysteine S-conjugates Berrnauer et al., 1996;Anders and Dekant, 1998). The formation of cysteine S-conjugates takes place mainly in liver and, to some extent, also in kidney. Cysteine S-conjugates may be acetylated in the liver and kidney into corresponding N-acetyl S-conjugates (mercapturic acids) and transported from the liver into the kidney. In the kidney proximal tubules, mercapturic acids may be secreted or deacetylated by aminoacylases into cysteine S-conjugates Dekant, 1994, 1998). The deacetylation reaction may play an important role in the renal nephrotoxicity since cysteine S-conjugates, but not mercapturates, are transformed by cysteine conjugate -lyases into toxic metabolites (Hayden and Stevens, 1990;Commandeur et al., 1995). Cysteine S-conjugates also may be transformed by flavoprotein monooxygenase...
