Dose-ranging study of Indole-3-Carbinol for breast cancer prevention

Indole-3-carbinol (I3C) is a potent inducer of cytochrome P450 enzymes in many species, including humans. We therefore studied alterations in the cytochrome P450-dependent metabolism of estradiol in different strains of mice consuming I3C in semisynthetic powdered diets at doses ranging from 250 to 5000 p.p.m. (34-700 mg/kg/day) for different periods of time. In short-term metabolic studies (3 weeks), wet liver weight increased in SW and C3H/OuJ mice in a dose-responsive manner. Dietary I3C increased the cytochrome P450 content measured in hepatic microsomes, as well as the extent of estradiol 2-hydroxylation, up to 5-fold. In a long-term feeding experiment (8 months), female C3H/OuJ mice consumed synthetic diets containing I3C at 0, 500 or 2000 p.p.m. Mammary tumor incidence and multiplicity were significantly lower at both doses of I3C, and tumor latency was prolonged in the high-dose group. We conclude that I3C is an inducer of hepatic P450-dependent estrogen metabolism in mice, and that it is chemopreventive in the C3H/OuJ mouse mammary tumor model. This protective effect may be mediated in part by the increased 2-hydroxylation and consequent inactivation of endogenous estrogens.

In this report, we describe our findings on the relationship between estradiol 16 alpha-hydroxylation and mammary tumor incidence. A close correlation between the two has been demonstrated with 16-hydroxylation being elevated in strains with a high incidence of tumors, such as RIII and C3H, and low in strains with a low incidence of cancer, such as C57BL. The extent of reaction is highly reproducible and unaffected by age or presence of overt mammary tumors. Studies on the inheritance of estradiol 16 alpha-hydroxylase showed that it is inherited as an autosomal dominant and is not correlated with estradiol 2-hydroxylase or androgen and progestin 16 alpha-hydroxylases. In addition, the reaction was shown to be markedly enhanced by the presence of murine mammary tumor virus and diminished in the absence of the virus. These studies establish a relationship between genetics, hormonal factors, and murine mammary tumor virus, the three key factors in mammary tumorigenesis.