Project description:Acquired resistance to trastuzumab, a rationally designed HER-2 targeting antibody, remains a major hurdle in management of HER-2 positive breast cancer (HER-2+ BC) patients. Potential resistance mechanisms are numerous, derived primarily from studies where HER-2 positive cell lines are chronically exposed to trastuzumab. Recent evidence suggests a role for epithelial-mesenchymal transition (EMT) in trastuzumab resistance, but a definitive link between the two has been difficult to establish because relevant model systems are lacking. When sub-populations of trastuzumab sensitive SKBR-3 cells were isolated using cloning rings, an (EMT) occurred spontaneously in several (3/8) clones. SKBR-3 EMT-clones featured increased spindle morphology, expressed N-glycosylated M-NM-21-integrin, and decreased HER-2, all characteristics shared by JIMT-1, a cell lines with intrinsic resistance to trastuzumab. SKBR-3 EMT-clones were characterized by gene expression profiling and mammosphere formation. The N-glycosylated isoform of M-NM-2-itnegrin was targeted with M-NM-2-integrin inhibiting antibody, AIIB2. Transcriptional profiling revealed that SKBR-3 EMT-clones underwent a shift from a luminal molecular subtype to a more aggressive mesenchymal/ basal phenotype. Isolating clones from SKBR-3 cells with enforced expression of a M-NM-2-integrin isoform lacking extensive N-glycosylation failed to increase the likelihood for spontaneous EMT in SKBR-3. However, specific inhibition of the heavily N-glycosylated variant of M-NM-21-integrin expressed by SKBR-3 EMT-clones restored epithelial morphology and impaired mammosphere formation. Furthermore, when SKBR-3 EMT-clones were treated with relevant doses of trastuzumab and lapatinib, they showed M-bM-^@M-^\spontaneousM-bM-^@M-^] resistance. In this study we describe a model of spontaneous EMT following clonal selection in HER-2+ cell line, SKBR-3. Using this model we establish the first direct link between EMT and resistance to HER-2 targeted therapies. We also identify the N-glycosylated isoform of M-NM-2-integrin as a potential biomarker and target in HER-2+ BC refractory to HER-2 targeted therapies. RNA was isolated from 10 breast cancer cell lines in triplicate. Pairwise gene expression differences were compared between each of the SKBR-3 cell lines (SKBR-3/ b1, SK-EV-C4, and SK-B1-C1). Features selected had at least a 2X difference in at least one comparison, with a one-way ANOVA corrected p-value of >0.05. In addition, expression profiles from SKBR-3/ EV and SK-B1-C1 cell were compared and a differential gene list was generated to include genes that differed by at least 1.5X, with a t-test p-value of >0.02 (unpaired, Bonferroni corrected). A total of 1940 entities met these criteria and the expression of these genes was investigated in all breast cancer cell lines.

Project description:Human breast cancer SKBr-3 cells selected with trastuzumab for 6 month compared with parental SKBr-3 cells; Goal was to screen for microRNAs involved in development of trastuzumab resistance.

Project description:Human breast cancer SKBr-3 cells selected with trastuzumab for 6 month compared with parental SKBr-3 cells; Goal was to screen for microRNAs involved in development of trastuzumab resistance. Human breast cancer SKBr-3 cells were continuously cultured in the presence ofM-BM- 5M-BM-5g/ml trastuzumab for 6 months, and the resulting alive cells were regarded as trastuzumab-resistant. Total RNAs were prepared from these cells and cells cultured in parallel in control media, and were subjected to hybridization on the miRCURY LNA Array (Exiqon, version 11.0).

Project description:To identify the cytokines secreted by mesenchymal-like cancer cells that activate macrophages, the cytokine profiles of conditioned media from MCF7, MCF7 induced to undergo EMT by treatment of TGF-β, TNF-α and prolonged mammosphere culture, and MDA-MB-231 cells were analyzed by RayBio® Human Cytokine Antibody Array V. 5 samples. There are 5 groups: MCF7, MCF7 induced to undergo EMT by treatment of TGF-β (TGF-β-MCF7), TNF-α (TNF-α-MCF7), prolonged mammosphere culture (MCF7M), and MDA-MB-231 cells

Project description:Grainyhead genes are involved in wound healing and developmental neural tube closure. In light of the high degree of similarity between the epithelial-mesenchymal transitions (EMTs) occurring in wound healing processes and the cancer stem cell-like compartment of tumors, including TGF-β-dependence, we investigated the role of a Grainyhead gene (GRHL2) in oncogenic EMT. Grainyhead was specifically down-regulated in the claudin-low subclass of mammary tumors and in the basal-B subclass of breast cancer cell lines. Functionally, GRHL2 suppressed TGF-β-induced, Twist-induced or spontaneous EMT, enhanced anoikis-sensitivity, and suppressed mammosphere generation in mammary epithelial cells. These effects were mediated, in part, by its suppression of ZEB1 expression, through direct repression of the ZEB1 promoter. GRHL2 also inhibited Smad-mediated transcription, and up-regulated mir200b/c as well as the TGF-β receptor antagonist, BMP2. The expression of GRHL2 in the breast cancer cell line MDA-MB-231 triggered a mesenchymal-to-epithelial transition and sensitized the cells to anoikis. These results indicate that GRHL2 is a suppressor of the oncogenic EMT. 3 biologic replicates for each cell line. Comparison of HMLE+Twist-ER cells expressing GRHL2/pMIG vs. HMLE+Twist-ER cells expressing empty pMIG.

Project description:Overexpression of human epidermal growth factor receptor 2 (HER-2) occurs in 20% of all breast cancer subtypes, those that present the worst prognostic outcome through a very invasive and aggressive tumour. HCC-1954 (HER-2+) is a highly invasive, metastatic cell line whereas MCF-7 is mildly aggressive and non-invasive. We investigated membrane proteins from both cell lines that could have a pivotal biological significance in the metastatic process. Membrane protein enrichment for HCC-1954 and MCF-7 proteomic analysis was performed. The samples were analysed on a two-dimensional liquid chromatography coupled to mass spectrometry (2-D-SCX/RP-LCMS system) and the protein expression was quantified by MSE method. High abundance membrane proteins were confirmed by western blot, immunofluorescence, and flow cytometry. Protein interaction prediction and correlations with TCGA patient’s data were conducted by bioinformatic analysis. The comparison between HCC-1954 and MCF-7 membrane proteins revealed that proteins involved in cytoskeleton organization, such as HER-2, β-1 integrin, E-cadherin and CD166 (ALCAM) were more abundant in HCC-1954. The Cancer Genome Atlas (TCGA) analysis showed a trend toward a positive correlation between HER-2 and β-1 integrin in HER-2+ breast cancer patients. Differences in protein profile and abundance reflect distinctive capabilities for motility and invasiveness between cell lines. HCC-1954 could be an excellent model to study β1 integrin and epithelial–mesenchymal transition (EMT) involvement in trastuzumab resistance mechanisms.

Project description:Grainyhead genes are involved in wound healing and developmental neural tube closure. In light of the high degree of similarity between the epithelial-mesenchymal transitions (EMTs) occurring in wound healing processes and the cancer stem cell-like compartment of tumors, including TGF-β-dependence, we investigated the role of a Grainyhead gene (GRHL2) in oncogenic EMT. Grainyhead was specifically down-regulated in the claudin-low subclass of mammary tumors and in the basal-B subclass of breast cancer cell lines. Functionally, GRHL2 suppressed TGF-β-induced, Twist-induced or spontaneous EMT, enhanced anoikis-sensitivity, and suppressed mammosphere generation in mammary epithelial cells. These effects were mediated, in part, by its suppression of ZEB1 expression, through direct repression of the ZEB1 promoter. GRHL2 also inhibited Smad-mediated transcription, and up-regulated mir200b/c as well as the TGF-β receptor antagonist, BMP2. The expression of GRHL2 in the breast cancer cell line MDA-MB-231 triggered a mesenchymal-to-epithelial transition and sensitized the cells to anoikis. These results indicate that GRHL2 is a suppressor of the oncogenic EMT.

Project description:HS-578T cells overexpressing EP300 show an increase in doxorubicin and paclitaxel resistance, up-regulation of EMT markers together with an increase in motility and invasion, and an increase in the percentage of cancer stem cells and mammosphere formation.

Project description:We have developed a novel spontaneous model of epithelial-to-mesenchymal transition (EMT) which involves four phenotypically distinct clones derived from a primary tumour-derived human prostate cancer cell line (OPCT-1), and its use to explore relationships between EMT and the generation of cancer stem cells (CSCs) in prostate cancer. Expression of epithelial (E-Cadherin) and mesenchymal markers (vimentin, fibronectin) revealed that two of the four clones were incapable of spontaneously activating EMT, whereas the others contained large populations of EMT-derived, vimentin-positive cells having spindle-like morphology. One of the two EMT-positive clones exhibited aggressively and stem cell-like characteristics, whereas the other was non-aggressive and had no stem cell phenotype. One of the two EMT-negative clones exhibited aggressive stem cell-like properties, whereas the other was the least aggressive of all clones. To understand this phenotypic differences between the clones we have conducted a microarray expression profiling experiment using Affymetrix platform.

Project description:To identify the cytokines secreted by mesenchymal-like cancer cells that activate macrophages, the cytokine profiles of conditioned media from MCF7, MCF7 induced to undergo EMT by treatment of TGF-β, TNF-α and prolonged mammosphere culture, and MDA-MB-231 cells were analyzed by RayBio® Human Cytokine Antibody Array V.