Abstract

Abstract Invasive lobular carcinoma (ILC) is a histological subtype of breast cancer, affecting ~30,000 U.S. women annually. Over 90% of ILC are estrogen receptor (ER)-positive, however, endocrine therapy may have poorer efficacy in a subset of ILC patients compared to invasive ductal carcinoma (IDC) patients. Based on these observations, we assessed genome-wide ER-mediated gene expression and ER genomic binding in ILC cell lines MDA MB 134VI (MM134) and SUM44PE (44PE), to identify novel mediators of ER signaling and putative therapeutic targets specifically in ILC. Among ILC-specific estrogen-regulated genes, the most strongly induced was the Wnt ligand WNT4. In parallel, we identified an ILC-specific ER binding site (ERBS) at WNT4, suggesting that WNT4 is directly ER-controlled in ILC cells. We hypothesized that this would be an analog to progesterone-controlled WNT4 in mammary gland expansion, and assessed whether WNT4 is necessary for estrogen-induced growth in ILC cells. Using siRNAs, knockdown of WNT4 completely blocked estrogen-induced growth in ILC cells, but not IDC cells. Consistent with this, we found that the WNT4 ERBS is only occupied in ILC cells that strongly upregulate WNT4 in response to estrogen, whereas progesterone-regulated WNT4 expression in T47D cells was not associated with ER binding at the WNT4 ERBS. These data suggest that, via an ILC-specific ERBS at WNT4, ILC cells can drive estrogen-regulated proliferation by hijacking a developmental Wnt pathway. Canonical Wnt pathways activate β-catenin; however, we observed β-catenin dysfunction in ILC cells, and that WNT4 cannot activate β-catenin in cell lines. Thus, WNT4 regulates estrogen-induced growth in ILC cells via a novel non-canonical pathway. Using long-term estrogen-deprived (LTED) variants of MM134 and 44PE (4 and 2 lines, respectively), we assessed WNT4 in ILC endocrine resistance. WNT4 is over-expressed but uncoupled from ER in all MM134-LTED; expression is greatly reduced in 44PE-LTED, but weakly estrogen-regulated. Consistent with regulation, ER occupies the WNT4 ERBS only in 44PE-LTED cells. However, 44PE-LTED (low WNT4) are resistant to growth inhibition by WNT4 siRNA, while MM134-LTED (high WNT4) are growth-inhibited. Taken together, uncoupling and upregulating WNT4 may be necessary for LTED growth in MM134. Clinical observations suggest that ER regulates unique downstream pathways in ILC. We identified WNT4 as a putative downstream effector of endocrine signaling in ILC, having critical roles in both estrogen-induced growth and endocrine resistance. Targeting WNT4 signaling represents a novel approach to modulate endocrine response specifically for ILC patients. Citation Format: Matthew J. Sikora, Amir Bahreini, Caroline M. Alexander, Steffi Oesterreich. WNT4 signaling mediates endocrine response and resistance in invasive lobular carcinoma cells. [abstract]. In: Proceedings of the AACR Special Conference on Advances in Breast Cancer Research; Oct 17-20, 2015; Bellevue, WA. Philadelphia (PA): AACR; Mol Cancer Res 2016;14(2_Suppl):Abstract nr A35.

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