Abstract P5-04-05: E-Cadherin is Required for In Vivo Growth of Inflammatory Breast Cancer: Importance of Mesenchymal-Epithelial Transition (MET) and Role of HIF1α

Abstract

Abstract Background: Inflammatory breast cancer (IBC) is the most aggressive and deadly form of breast cancer and is phenotypically distinct from other forms of locally advanced breast cancer. The 5-year survival for IBC patients (40%) has not improved even with the implementation of multi-disciplinary care and targeted therapies (e.g. anti-HER2 or anti-estrogen therapies). Lymph node involvement is common at first diagnosis and the accelerated metastasis program that characterizes IBC account for a disproportionate number of the 40,000 women who will die from breast cancer. The most common molecular marker for IBC is the cell adhesion surface glycoprotein, E-Cadherin. Classically, E-Cadherin is thought to be a tumor suppressor and its loss is associated with the epithelial-mesenchymal transition (EMT) and acquisition of an invasive phenotype. The importance of EMT in metastasis is well accepted in numerous tumor models although the presence of EMT in patient samples is rarely demonstrated. Given the propensity of IBC to metastasize, one would expect a strong EMT signature in IBC cell lines, however the persistent robust expression of E-Cadherin in IBC patient tumors and in IBC cell lines, with a lack of expression of ZEB1, a transcriptional repressor of E-cadherin and diminished expression of genes within the transforming growth factor beta signaling pathway, suggests otherwise. Methods: To further define the role of E-Cadherin in IBC, we used the SUM149 IBC cell line to manipulate E-Cadherin via shRNA knockdown and by overexpression of ZEB1 a known transcriptional repressor of E-cadherin. Results: While the lack of E-Cadherin or ZEB1 overexpression in SUM149 cells led to an EMT phenotype in vitro, E-Cadherin was required for in vivo growth of SUM149 tumor cells. Gene profiling identified novel E-Cadherin signaling pathways including an hypoxia gene signature through HIF1a as well as cytokine responsive pathways. The requirement of HIF-1a for in vivo growth of SUM149 cells was confirmed by shRNA knockdown of HIF-1a. Conclusions: The absolute requirement for E-Cadherin and maintenance of the mesenchymal-epithelial transition in IBC tumor growth is demonstrated. Furthermore, a novel functional link between E-Cadherin and HIF-1a and in their critical role in survival of IBC tumors is identified for the first time and warrants further investigation. Supported in part by The Susan G Komen Organization Promise Grant KG081287 (FMR and MC) Citation Information: Cancer Res 2012;72(24 Suppl):Abstract nr P5-04-05.