The hepatotoxicity of bromobenzene (BB) has been attributed to covalent modification of cellular proteins by reactive metabolites generated during its oxidative biotransformation. Much of the net covalent binding which occurs originates via quinone metabolites, but bromobenzene 3,4-oxide (BBO), which is the reactive metabolite thought to be most significant toxicologically, also arylates protein side chains, although to a lesser extent. To facilitate the detection, isolation, and identification of rat liver proteins specifically adducted by BBO, we raised polyclonal antibodies capable of recognizing S-(p-bromophenyl)cysteine moieties (anti-BP) by immunizing rabbits with p-bromophenylmercapturic acid conjugated to keyhole limpet hemocyanin. The antiserum had a high titer, showed a high specificity for hapten in competitive ELISA with hapten analogues, and performed well in Western blot experiments using synthetically haptenized control proteins. When used for Western analysis of protein fractions from in vitro incubations of rat liver microsomes with [14C]BB, affinity-purified anti-BP recognized a limited number of bands, each of which also contained 14C. One of these bands corresponds to hydrolase B, a nonspecific esterase known to contain one free sulfhydryl group and previously shown to be a target protein for [14C]BB metabolites.
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