Identification of products arising from the metabolism of cis- and trans-chlordane in rat liver microsomes in vitro: Outline of a possible metabolic pathway

Abstract

The metabolism of pure cis- and trans-chlordane was studied in vitro. Microsomal preparations from the livers of male rats induced with cis- or trans-chlordane in feed for 10 days were used to metabolize the pure compound corresponding to the inducer. Subsequent extraction, column fractionation, and combined gas chromatography-mass spectroscopy resulted in the characterization of four compounds not previously reported from an in vitro system. In addition to the substrate, trans-chlordane extracts contained species with the following molecular weights and empirical formulas: m e 370, C 10H 5Cl 7, heptachlor; m e 352, C 10H 6OCl 6, a hydroxylated chlordene; and m e 422, C 10H 6OCl 8, a hydroxylated chlordane. Dichlorochlordene, oxychlordane, and 1-chloro-2-hydroxy-dihydrochlordene were also present. With the exception of the hydroxychlordane, cis-chlordane extracts contained all of the metabolites found in the trans incubates. Additionally, a fully saturated compound, m e 372, C 10H 7Cl 7, a dihydroheptachlor, was present. The 1,2- trans-dihydrodiol of heptachlor found in previous in vitro incubates of cis-chlordane was not present in this extract. This information has been incorporated into a proposed route for the biotransformation of the chlordanes that offers an explanation for the observed differences in the metabolism of cis and trans isomers. The pathway is based on the reductive dechlorination of the chlordanes through dihydroheptachlor to dihydrochlordene. Parallel pathways of hydroxylation, desaturation, and epoxide formation arise at each of these species and at chlordane itself.