Prolactin and oestrogen synergistically regulate gene expression and proliferation of breast cancer cells.

The pituitary hormone prolactin (PRL) plays an important role in mammary gland development. It was also suggested to contribute to breast cancer progression. In vivo data strongly supported a crucial role of PRL in promoting tumour growth; however, PRL demonstrated only a weak, if any, pro-proliferative effect on cancer cells in vitro. Several recent studies indicated that PRL action in vivo may be influenced by the hormonal milieu, e.g. other growth factors such as 17beta-oestradiol (E(2)). Here, we explored the potential interplay between PRL and E(2) in regulation of gene expression and cell growth. PRL alone induced either a weak or no proliferative response of T47D and BT-483 cells respectively, while it drastically enhanced cell proliferation in E(2)-stimulated cultures. Affymetrix microarray analysis revealed 12 genes to be regulated by E(2), while 57 genes were regulated by PRL in T47D cells. Most of the PRL-regulated genes (42/57) were not previously described as PRL target genes, e.g. WT1 and IER3. One hundred and five genes were found to be regulated upon PRL/E(2) co-treatment: highest up-regulation was found for EGR3, RUNX2, EGR1, MAFF, GLIPR1, IER3, SOCS3, WT1 and AREG. PRL and E(2) synergised to regulate EGR3, while multiple genes were regulated additively. These data show a novel interplay between PRL and E(2) to modulate gene regulation in breast cancer cells.