A positive cross-regulation of HER2 and ER-α36 controls ALDH1 positive breast cancer cells

Accumulating evidence supports the theory that breast cancer arises from a subpopulation of mammary stem/progenitor cell which posses the ability to self-renew. However, the involvement of estrogen signaling in regulation of breast cancer stem/progenitor cells has not been fully established, mainly because expression and function of ER-α in breast cancer stem cells remains controversial. Previously, our laboratory cloned a variant of ER-α, ER-α36, and found that ER-α36-mediated non-genomic estrogen signaling plays an important role in malignant growth of triple-negative breast cancer cells. In this study, we found that ER-α36 was highly expressed in ER-negative breast cancer SK-BR-3 cells and mediated non-genomic estrogen signaling such as activation of the MAPK/ERK signaling in these cells. Knock-down of ER-α36 expression in these cells using the shRNA method diminished their responsiveness to estrogen and significantly down-regulated HER2 expression. HER2 signaling activated ER-α36 transcription through an AP1 site in the ER-α36 promoter and ER-α36 physically interacted with HER2. We also found that ER-α36 is highly expressed in a subset of SK-BR-3 cells that was positive for ALDH1, a breast cancer stem cell marker, and knock-down of ER-α36 expression reduced the population of ALDH1 positive cells. Our results thus demonstrated that ER-α36 positively regulates HER2 expression and the population of ALDH1 positive breast cancer cells, and suggested that non-genomic estrogen signaling mediated by ER-α36 is involved in maintenance and regulation of breast cancer stem cells.

► ER-α36 mediates non-genomic estrogen signaling in ER-negative breast cancer SK-BR-3 cells. ► ER-α36 knock-down diminishes estrogen signaling and downregulates HER2 expression. ► HER2 signaling induces ER-α36 expression and ER-α36 physically interacts with HER2. ► ER-α36 is highly expressed in ALDH1-positive SK-BR-3 cells, and ER-α36 knock-down reduces their population.