Abstract
Seven polynuclear aromatic hydrocarbons were individually studied for evidence of bioalkylation at the site of sc injection in male Sprague-Dawley rats. The metabolism of benz[a]anthracene, a weakly carcinogenic hydrocarbon, was compared to the metabolism of six noncarcinogenic hydrocarbons (benzo(e)pyrene, pyrene, phenanthrene, coronene, triphenylene, and perylene). Twenty-four hr after administration, the tissue in contact with the hydrocarbon was visualized under UV light, excised, and processed as described in the text to determine whether the hydrocarbon had undergone a bioalkylation substitution reaction in vivo. Although the bioalkylation substitution reaction was found to occur readily with the weakly carcinogenic hydrocarbon, benz[a]anthracene, no evidence for bioalkylation or other biochemical reactions were obtained for the noncarcinogenic hydrocarbons. These observations are in accord with a unified hypothesis that the first step in the metabolic activation of unsubstituted carcinogenic hydrocarbons is the biochemical introduction of an alkyl group, most favorably in the meso-anthracenic centers of highest chemical or biochemical reactivity in the molecule.
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