Evidence is mounting that the occurrence of the CD44(pos)/CD24(neg/low) cell population, which contains potential breast cancer (BC) stem cells, could explain BC clinical resistance to HER2-targeted therapies. We investigated whether de novo refractoriness to the anti-HER2 monoclonal antibody trastuzumab (Tzb; Herceptin) may relate to the dynamic regulation of the mesenchymal CD44(pos)/CD24(neg/low) phenotype in HER2-positive BC. We observed that the subpopulation of Tzb-refractory JIMT-1 BC cells exhibiting CD44(pos)/CD24(neg/low)-surface markers switched with time. Low-passage JIMT-1 cell cultures were found to spontaneously contain approximately 10% of cells bearing the CD44(pos)/CD24(neg/low) immunophenotype. Late-passage (>60) JIMT-1 cultures accumulated approximately 80% of CD44(pos)/CD24(neg/low) cells and closely resembled the CD44(pos)/CD24(neg/low)-enriched ( approximately 85%) cell population constitutively occurring in HER2-negative MDA-MB-231 mesenchymal BC cells. Dynamic expression of mesenchymal markers was not limited to CD44/CD24 because high-passages of JIMT-1 cells exhibited also reduced expression of the HER2 protein and over-secretion of pro-invasive/metastatic chemokines and metalloproteases. Accordingly, late-passage JIMT-1 cells displayed an exacerbated migratogenic phenotype in plastic, collagen, and fibronectin substrates. Intrinsic genetic plasticity to efficiently drive the emergence of the CD44(pos)/CD24(neg/low) mesenchymal phenotype may account for de novo resistance to HER2 targeting therapies in basal-like BC carrying HER2 gene amplification.
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