Gonadotropins stimulate growth of MCF-7 human breast cancer cells by promoting intracellular conversion of adrenal androgens to estrogens.

Estrogen receptor (ER)-positive breast cancers initially respond well to estrogen ablation treatment but finally acquire refractoriness, the phenomenon that is a major clinical problem. Because some breast cancers synthesize estradiol (E(2)) and E(2) synthesis is regulated by gonadotropins in normal ovaries, and because circulating gonadotropins are elevated in postmenopausal women and during estrogen ablation treatment, we hypothesized that gonadotropins might modulate estrogen synthesis/metabolism in breast cancer tissue as well. To test this possibility, MCF-7 cells were treated with dehydroepiandrosterone (DHEA) or human chorionic gonadotropin (hCG; approximately LH), each alone or in combination. Cell growth (3-day treatment) was assayed by the MTT method and estrogen synthesis (24-hour treatment) was measured using the ERE-luciferase reporter system. First, MCF-7 cell growth was stimulated by DHEA in a concentration-dependent manner with a maximal effect at 10(-4) M. Although hCG alone did not have a significant proliferative effect, hCG significantly and dose dependently stimulated MCF-7 cell growth in the presence of a submaximal concentration of DHEA (10(-7 )M). This stimulatory effect of DHEA and hCG was blocked by a pure antiestrogen ICI182,780 and an aromatase inhibitor, arimidex. Using MCF-7 cells transfected with the ERE-luciferase reporter system, hCG treatment was shown to increase ERE-mediated transcription. These results indicate that MCF-7 cells intrinsically converted DHEA into E(2) upon hCG stimulation, then grew their own cells DHEA- and hCG-dependently. We conclude that gonadotropins can act on breast cancer cells and accelerate conversion of DHEA into estrogens, thereby stimulating growth of estrogen-dependent tumor cells. This phenomenon, at least in part, could explain: (1) an increased tissue concentration of E(2) in postmenopausal breast cancer; (2) acquisition of hormone refractoriness during estrogen ablation treatment, and (3) the effectiveness of GnRH antagonist/superagonist in some postmenopausal breast cancer patients.