Prolactin drives estrogen receptor-alpha-dependent ductal expansion and synergizes with transforming growth factor-alpha to induce mammary tumors in males.

Male breast cancer is rare and has been the focus of limited research. Although the etiology is unclear, conditions increasing circulating prolactin (PRL), as well as estrogen, increase the risk of tumorigenesis. We modeled exposure to elevated PRL in transgenic mice, using the mammary-selective, estrogen-insensitive promoter neu-related lipocalin (NRL), to drive PRL expression. Male NRL-PRL mice did not develop mammary tumors. However, in cooperation with the well-characterized oncogene transforming growth factor-alpha (TGF-alpha), PRL induced mammary tumors in 100% of male bitransgenic mice. Similar to disease in human males, these tumors expressed variable levels of estrogen receptor-alpha (ER-alpha) and androgen receptors. However, carcinogenesis was not responsive to testicular steroids because castration did not alter latency to tumor development or tumor ER-alpha expression. Interestingly, both NRL-TGF-alpha/PRL and NRL-PRL males demonstrated increased ductal development, which occurred during puberty, similar to female mice. This outgrowth was diminished in NRL-PRL males treated with ICI 182,780, suggesting that PRL enhances ER-mediated growth. Treatment of MCF-7-derived cells with PRL increased phosphorylation of ER-alpha at residues implicated in unliganded ER-alpha activity. Together, these studies suggest that PRL expands the pool of cells susceptible to tumorigenesis, which is then facilitated by PRL and TGF-alpha cross talk. Activation of ER-alpha is one mechanism by which PRL may contribute to breast cancer and points to other therapeutic strategies for male patients.