Contrasting activities of estrogen receptor beta isoforms in triple negative breast cancer.

PURPOSE: Triple negative breast cancer (TNBC), an aggressive subtype of breast cancer, lacks the three major receptors for predicting outcome or targeting therapy. Hence, our aim was to evaluate the potential of estrogen receptor beta (ERß) as a possible endocrine therapy target in TNBC. METHODS: The expression and prognostic effect of ERß isoforms were analyzed using TCGA breast tumor data, and the expression of ERß isoform mRNA and protein in TNBC cell lines was assayed. Endogenous ERß2 and ERß5 were knocked down with siRNA, and ERß2, ERß5, and ERß1 were upregulated using a doxycycline-inducible lentiviral system. Cell proliferation, migration and invasion, and specific gene expressions were evaluated. RESULTS: ERß2 and ERß5 were the predominant endogenous forms of ERß in TNBC tumors and cell lines. High ERß2 predicted worse clinical outcome. Knockdown of endogenous ERß2/ERß5 in cell lines suppressed proliferation, migration and invasion, and downregulated proto-oncogene survivin expression. ERß2/ERß5 upregulation did the reverse, increasing survivin and these cell activities. ERß1 was barely detectable in TNBC cell lines, but its upregulation reduced survivin, increased tumor suppressor expression (E-cadherin and cystatins), and suppressed proliferation, migration and invasion in both ligand-independent and dependent manners, suggesting the possible translational benefit of ERß ligands. CONCLUSIONS: ERß2/ERß5 and ERß1 exhibit sharply contrasting activities in TNBC cells. Our findings imply that delineating the absolute amounts and relative ratios of the different ERß isoforms might have prognostic and therapeutic relevance, and could enable better selection of optimal approaches for treatment of this often aggressive form of breast cancer.