Three weeks after a single dose of iron-dextran and Aroclor 1254, mice maintained continuously on delta-aminolevulinic acid supplemented drinking water showed significantly elevated levels of hepatic uroporphyrin and depressed (25% of normal) uroporphyrinogen decarboxylase (URO-D) activity. Depressed URO-D activity was paralleled by the ability of heat denatured cytosol to inhibit rhURO-D activity. Mice heterozygous for a targeted disruption at the URO-D locus (URO-D+/-) exhibited half the URO-D activity of homozygous controls prior to treatment. After treatment, these animals showed URO-D activity and rhURO-D inhibitory activity comparable to similarly treated wild type (URO-D +/+) mice but with significantly greater uroporphyrin accumulation. With only 10 days of treatment, URO-D +/- but not URO-D +/+ mice showed changes similar in magnitude to those seen after 21 days. Prior to treatment, URO-D genotype did not influence overall hepatic P450 concentration in either sex and there was no significant difference between sexes. The treatment regimen significantly elevated P450 in animals of either URO-D genotype and in both sexes, although the induction response at the 10-day point was attenuated in URO-D +/- mice. From differences in the CO absorbance maximum, and by P450 activity analysis, this attenuated induction response resulted from an attenuation of the CYP2B not the CYP1A induction.
Copyright 2001 John Wiley & Sons, Inc.