Experimental down-regulation of intermediate biomarkers of carcinogenesis in mouse mammary epithelial cells

Abstract

The polycyclic aromatic hydrocarbon 7,12-dimethylbenz(a)anthracene (DMBA) is a metabolism-dependent procarcinogen whose tumorigenicity is modified by dietary and endocrine manipulationsin vivo. DMBA initiates molecular and cellular alterations in the mammary tissue, while dietary components and estrogens affect the post-initiational phase of tumorigenic transformation. The mechanism(s) responsible for modulation of tumorigenic transformation remain unclear. This study examines the effects of selected tumor suppressing agents and estradiol (E₂) metabolites onin vitro DMBA carcinogenesis utilizing a newly established mouse mammary epithelial cell line C57/MG. Alteration in DNA repair synthesis, metabolism of E₂ via the C2- and C16α-hydroxylation pathways, and acquisition of anchorage-independent growth were utilized as molecular, endocrine, and cellular biomarkers to quantitate the cellular transformation by DMBA and its modulation by tumor suppressing agents and E₂ metabolites. A single 24 hr exposure of 0.78 µM DMBA to C57/MG cells resulted in a 193.9% increase in DNA repair synthesis and a 73.1% decrease in C2/C16α hydroxylation of E₂. The DMBA treated C57/MG cells also exhibited increased anchorage-independencein vitro prior to tumorigenesisin vivo. A simultaneous treatment of cells with DMBA and with the highest non-cytotoxic doses of the tumor suppressing agents 5 µM N-(4-hydroxyphenyl) retinamide (HPR), 50 µM indole-3-carbinol (I3C), or 1 µM tamoxifen (TAM) resulted in a 35.6% to 63.9% decrease in DNA repair synthesis, a 23.8% to 1347.6% increase in C2/C16α hydroxylation of E₂, and a 53.8% to 72.4% decrease in anchorage-independent growth. The E₂ metabolites at the highest non-cytotoxic doses of 0.76 µM estrone (E₁), 0.69 µM 2-hydroxyestrone (2-OHE₁), and 0.66 µM 2-methoxyestrone (2-MeOHE₁) suppressed DMBA-induced DNA repair synthesis by 56.0% to 68.8%. These tumor suppressing agents and E₂ metabolites also effectively suppressed post-initiational, anchorage-independent growth by 24.9% to 72.4%. These results indicate that DMBA induces cellular transformation in part by causing DNA damage, altering C2/C16α hydroxylation in favor of C16α-hydroxylation, and inducing anchorage-independent growth prior to tumor development. Effective downregulation of these genotoxic, endocrine and proliferative end points by prototypic tumor suppressing agents and by E₂ metabolites generated via the C2-hydroxylation pathway suggest that these agents may influence mammary tumorigenesis by inhibiting early occurring initiational and/or post initiational events.