ISSN:
1432-0738
Keywords:
Chlorobenzylidene malononitrile
;
CS
;
Mercapturic acid
;
Metabolism
;
Conjugation
;
Hydrolysis
Source:
Springer Online Journal Archives 1860-2000
Topics:
Medicine
Notes:
Abstract The glutathione conjugation of 2-chloro-, 3-chloro-, 4-chloro- and 2,6-dichlorobenzylidene malononitrile (chloroBMNs) was investigated in vitro. In incubation mixtures containing rat liver cytosol (9000 g), the decrease in the initial amount of glutathione due to the various chloroBMNs ranged from 40 to 60% and occurred both enzymatically and spontaneously at physiological conditions (37°C, pH7.4). 2,6-DichloroBMN, however, depleted glutathione largely spontaneously (38±3%). The steric hindrance of the two chlorosubstituents probably plays an important role during the glutathione-S-transferase catalyzed reaction. The hydrolysis of the chloroBMNs to the corresponding chlorobenzaldehydes and malononitrile was studied in a mixture of buffer pH 7.4 and ethanol. The rate of hydrolysis of 2,6-dichloroBMN was slower than those of the related chloroBMNs. This means that 2,6-dichloroBMN will be the most stable compound in the presence of water. Only IP administration of 2-chloroBMN (CS) to adult male Wistar rats gave enhancement of urinary thioether excretion. A thioether could be isolated and was identified as the N-acetyl-S-[2-chlorobenzyl]-L-cysteine. The quantity of this benzylmercapturic acid in the urine of rats amounted to 4.4% dose (0.07 mmol/kg, n=12). After IP administration of 2-chloro- and 3-chlorobenzaldehyde to rats benzylmercapturic acid excretion in the urine was found to be 7.6 and 1.1% of the dose, respectively. Administration of the related 4-chloro- and 2,6-dichlorobenzaldehyde, however, resulted in no urinary mercapturic acid excretion. It is very likely that in rats the initial biotransformation of chloroBMNs is mainly hydrolysis to corresponding chlorobenzaldehydes, leading in the case of 3-chloro-, 4-chloro- and 2,6-dichloroBMN to no mercapturic acid excretion in the urine. Nevertheless, 2,6-dichloroBMN will be the most reactive compound with proteins and therefore the best haptene in comparison with the related chloroBMNs.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1007/BF00290543
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