Knockdown of ESRP1 in endocrine-resistant breast cancer models decreases growth significantly and alters the EMT splicing signature, which we confirm using TCGA SpliceSeq data of ER+ BRCA tumors.
Overall, our data identify a subset of metastatic breast CSCs characterized by CD44v expression, and suggest that CD44v and ESRP1 might be better prognosis markers and therapeutic targets for breast cancer metastasis.
In breast cancer cell lines, isoform-specific hMENA overexpression or knockdown revealed that in the absence of hMENA(11a), overexpression of hMENAΔv6 increased cell invasion, whereas overexpression of hMENA(11a) reduced the migratory and invasive ability of these cells. hMENA(11a) splicing was shown to be dependent on the epithelial regulator of splicing 1 (ESRP1), and forced expression of ESRP1 in invasive mesenchymal breast cancer cells caused a phenotypic switch reminiscent of a mesenchymal-to-epithelial transition (MET) characterized by changes in the cytoskeletal architecture, reexpression of hMENA(11a), and a reduction in cell invasion. hMENA-positive primary breast tumors, which are hMENA(11a)-negative, are more frequently E-cadherin low in comparison with tumors expressing hMENA(11a).