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Organ-specific carcinogenicity of haloalkenes mediated by glutathione conjugation (1999)

Dekant, Wolfgang ; Henschler, Dietrich

Springer

Journal of cancer research and clinical oncology 125 (1999), S. 174-181

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ISSN: 1432-1335

Keywords: Key words Glutathione S-conjugate ; Cysteine S-conjugate ; Nephrotoxicity ; Cysteine conjugate β-lyase ; Organ specific toxicity

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Several halogenated alkenes are nephrotoxic in rodents. A mechanism for the organ-specific toxicity to the kidney for these compounds has been elucidated. The mechanism involves hepatic glutathione conjugation to dihaloalkenyl or 1,1-difluoroalkyl glutathione S-conjugates, which are cleaved by γ-glutamyltransferase and dipeptidases to cysteine S-conjugates. Haloalkene-derived cysteine S-conjugates are substrates for renal cysteine conjugate β-lyases, which cleave them to form reactive intermediates identified as thioketenes (from chloroalkene-derived S-conjugates) or thionoacyl halides (from 1,1-difluoroalkyl S-conjugates). Alternatively, cysteine S-conjugates may be N-acetylated to excretable mercapturic acids. The formation of reactive intermediates by cysteine-conjugate β-lyase may play a role in the target-organ toxicity and in the possible renal tumorigenicity of several chlorinated olefins widely used in many chemical processes.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004320050260

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Synthesis and Spectroscopic Characterization of 4-Chlorophenyl Isocyanate (= 1-chloro-4-isocyanatobenzene) Adducts with Amino Acids as Potential Dosimeters for the Biomonitoring of Isocyanate Exposure (1998)

Möller, Marianne ; Henschler, Dietrich ; Sabbioni, Gabriele

New York, NY : Wiley-Blackwell

Helvetica Chimica Acta 81 (1998), S. 1254-1263

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ISSN: 0018-019X

Keywords: Chemistry ; Organic Chemistry

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Chemistry and Pharmacology

Notes: Blood-protein adducts are used as dosimeter for modifications of macromolecules in the target organs where the disease develops. The functional groups of cysteine, tyrosine, serine, lysine, tryptophan, histidine and N-terminal amino acids are potential reaction sites for isocyanates. Especially the N-terminal amino acids, valine and aspartic acid of hemoglobin and albumin, respectively, are reactive towards electrophilic xenobiotics. To develop methods for the quantification of such blood-protein adducts, we treated 4-chlorophenyl isocyanate (1) with the tripeptide L-valyl-glycyl-glycine (2a) and with single amino acids yielding N-[(4-chlorophenyl)carbamoyl]valyl-glycyl-glycine (3a), N-[(4-chlorophenyl)carbamoyl]valine (3b), N-[(4-chlorophenyl)carbamoyl]aspartic acid (3c), N-(4-chlorophenyl)carbamoyl glutamic acid (3d), N-acetyl-S-[(4-chlorophenyl)carbamoyl]cysteine (3e), and N-acetyl-O-[(4-chlorophenyl)carbamoyl]serine (3f), Nα-acetyl-Nε-[(4-chlorophenyl)carbamoyl]lysine (3g). For several chemicals, it was shown that blood-protein adducts are good dosimeters of exposure and dosimeters for the target dose. The hydrolysis of the N-terminal adducts of isocyanates release hydantoins which can be separated from the rest of the protein and analyzed using GC/MS or HPLC. This was achieved with 3a. The released hydantoin could be analyzed using GC/MS. We propose to analyze the N-terminal adducts of isocyanates with blood protein to distinguish between arenamine and arylisocyanate exposure.