The effects of indole-3-carbinol (I3C) on lung neoplasia induced by the tobacco-specific nitrosamine 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone (NNK) were assessed in an A/J mouse pulmonary adenoma bioassay. Mice were administered corn oil or I3C (25 or 125 mumol/mouse/day) by gavage for 4 consecutive days. Two h after the final pretreatment, mice were administered a single dose of NNK (10 mumol/mouse) i.p. Pulmonary adenomas were quantitated 16 wk after NNK dosing. Mice pretreated with corn oil developed 10.7 tumors/mouse; I3C pretreatment at either dose level inhibited tumor multiplicity by approximately 40%. The effects of I3C on NNK-induced DNA methylation in the lungs and livers of A/J mice were assessed using the same dosing regimen as in the bioassay. Both dose levels of I3C inhibited pulmonary O6-methylguanine formation by at least 50%, but enhanced hepatic DNA methylation at 2 or at 6 h after NNK administration. The effects of I3C pretreatment on NNK metabolism were also investigated. Hepatic microsomes of I3C-pretreated mice showed increased formation of alpha-hydroxylation products, while no significant effect of I3C pretreatment was observed in pulmonary microsomes. The effects of I3C on [5-3H]NNK disposition were also evaluated. I3C pretreatment produced lower levels of total radioactivity in the lung when compared with controls. Additionally, lower proportions of NNK and its carcinogenic metabolite 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanol were found in the lungs of I3C-pretreated mice. These results demonstrate that I3C inhibits NNK-induced lung neoplasia in A/J mice and suggest that the basis of this inhibition is the decrease in O6-methylguanine formation in A/J lung caused by I3C pretreatment. This decrease in lung DNA methylation appears to be due to the decreased bioavailability of NNK and 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanol in the lungs of I3C-treated mice which, in turn, may be a result of increased metabolic alpha-hydroxylation of NNK by the liver.
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