Micropattern Effect on Breast Cancer Cells Behavior on Isotropically Etched Silicon Microenvironments

In this paper we are investigating three dimensional (3-D) silicon-based microenvironments as potential platforms for breast cancer diagnostics. We have developed isotropically etched microstructures with a wide range of geometrical patterns for this purpose. Our results indicate that with the etched surface ratio of ∼65%, it is possible to capture 80–90% of the cancer cells within each silicon chip. After treatment of the cells with mitomycin C (to block the cell growth) more number of the cells are trapped inside the etched features for longer cultures times (72 h) suggesting that there is a directed motility and attraction of the cells toward the etched cavities and by optimally designing the etched features, the proposed platforms can be potentially used for diagnostics purposes.

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Faculty Opinions recommendation of Metastatic breast cancer cells colonize and degrade three-dimensional osteoblastic tissue in vitro.

Faculty Opinions – Post-Publication Peer Review of the Biomedical Literature ◽

10.3410/f.1159048.619335 ◽

2009 ◽

Author(s):

Dietmar Werner Hutmacher ◽

Maria Woodruff

Keyword(s):

Breast Cancer ◽

Metastatic Breast Cancer ◽

Cancer Cells ◽

Breast Cancer Cells ◽

Three Dimensional ◽

Metastatic Breast

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Proteomic Analysis of Zeb1 Interactome in Breast Carcinoma Cells

Molecules ◽

10.3390/molecules26113143 ◽

2021 ◽

Vol 26 (11) ◽

pp. 3143

Author(s):

Sergey E. Parfenyev ◽

Sergey V. Shabelnikov ◽

Danila Y. Pozdnyakov ◽

Olga O. Gnedina ◽

Leonid S. Adonin ◽

...

Keyword(s):

Breast Cancer ◽

Cancer Cells ◽

Epithelial To Mesenchymal Transition ◽

Critical Role ◽

Malignant Neoplasm ◽

Malignant Neoplasms ◽

Breast Cancer Patients ◽

Survival Prognosis ◽

Mesenchymal Transition ◽

Wide Range

Breast cancer is the most frequently diagnosed malignant neoplasm and the second leading cause of cancer death among women. Epithelial-to-mesenchymal Transition (EMT) plays a critical role in the organism development, providing cell migration and tissue formation. However, its erroneous activation in malignancies can serve as the basis for the dissemination of cancer cells and metastasis. The Zeb1 transcription factor, which regulates the EMT activation, has been shown to play an essential role in malignant transformation. This factor is involved in many signaling pathways that influence a wide range of cellular functions via interacting with many proteins that affect its transcriptional functions. Importantly, the interactome of Zeb1 depends on the cellular context. Here, using the inducible expression of Zeb1 in epithelial breast cancer cells, we identified a substantial list of novel potential Zeb1 interaction partners, including proteins involved in the formation of malignant neoplasms, such as ATP-dependent RNA helicase DDX17and a component of the NURD repressor complex, CTBP2. We confirmed the presence of the selected interactors by immunoblotting with specific antibodies. Further, we demonstrated that co-expression of Zeb1 and CTBP2 in breast cancer patients correlated with the poor survival prognosis, thus signifying the functionality of the Zeb1–CTBP2 interaction.

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