A comparison of the inhibition of deacetylase in primary cultures of rat and human hepatocytes effecting metabolism and DNA-binding of 2-acetylaminofluorene

Abstract

The metabolism of 2-acetylaminofluorene (AAF) in primary cultures of rat and human hepatocytes was investigated to determine if the activation of this well-studied chemical carcinogen proceeds via similar routes of metabolism between species. The total level of AAF metabolite(s) bound to hepatocellular DNA was determined in the presence of deacetylase inhibitors, diethyl(p-nitrophenyl) phosphate (paraoxon) or bis(p-nitrophenyl) phosphate (BPNPP). These compounds are known to inhibit deacetylase and to decrease the mutagenicity of AAF. Experiments with rat and human hepatocytes demonstrated inhibition in the deacetylation of AAF (5 x 10(-4) M) with paraoxon or BPNPP. The BPNPP (5 x 10(-4) M inhibited 99% of the AF formation in the human hepatocytes and 88% inhibition in the rat hepatocytes. Paraoxon at 10(-4) M demonstrated a 98% inhibition of deacetylation with humans and a 92% inhibition with rats. The rat hepatocytes also showed a 53% decrease in DNA binding in the presence of paraoxon. In contrast with human hepatocytes, while paraoxon decreased the AF metabolite by greater than 97%, there was no change in total DNA binding.