Naloxone acts as an antagonist of estrogen receptor activity in MCF-7 cells.

Estrogen promotes the growth of breast cancer via estrogen receptors (ER). Earlier studies showed that the opioid receptor antagonist naloxone inhibits MCF-7 breast cancer growth in mice. We examined the cellular and molecular mechanism of naloxone antagonism of ERalpha activity in human MCF-7 cells. Naloxone (100 nmol/L) inhibited 17beta-estradiol (E2)-induced (10 nmol/L) MCF-7 cell proliferation by 65% and mitogen-activated protein kinase/extracellular signal-regulated kinase phosphorylation. Naloxone blocked the E2-induced activation of ERalpha, with 85% inhibition after 5 minutes and 100% recovery after 60 minutes. This assay is based on quantitation of E2-activated nuclear ERalpha binding to the immobilized coactivator peptide. A significant decrease in E2-induced ERalpha transactivation was observed in the presence of naloxone in the estrogen response element-luciferase reporter assay (P < 0.05, E2 versus E2 + naloxone). Naloxone also blocked E2-induced down-regulation of ERalpha mRNA at 30 minutes and 6 hours. Although naloxone inhibits ERalpha activity directly, it also induces a cross-talk between mu-opioid receptor (MOR) and ERalpha. Immunoprecipitates with anti-MOR antibody showed the presence of ERalpha in cells incubated with E2 in the presence of naloxone but not in cells incubated with E2 or naloxone alone. Higher amounts of ERalpha associated with MOR after 60 minutes compared with 10 minutes of incubation. Naloxone inhibited E2-bovine serum albumin-FITC binding to plasma membrane-associated ERalpha and also inhibited the direct binding of [3H]E2 to ERalpha. Thus, naloxone modulates ERalpha activity directly as well as indirectly via MOR. This study suggests that naloxone-like compounds can be developed as novel therapeutic molecules for breast cancer therapy.