Human Mammary Epithelial Cells: HMEpC, adult (C15-1310-064)

General description

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Mammary Epithelial Cells provide an excellent model system to study many aspects of epithelial function and disease, particularly those related to cancerogenesis.

HMEpC have been utilized in numerous research publications, for example to:

• Investigate the role of exosomes secreted by cancer cells in formation of tumor permissive microenvironment through manipulation of normal mammary epithelium (Dutta, 2014)
• Serve as control in a study investigating antitumor properties of cannabinoids (Ligresti, 2006) and stem cell microenvironment (Rostovit, 2008)
• Determine that differential expression of glycoproteins allows to classify human breast cells into normal, benign, malignant, basal, and luminal groups (Yen, 2011, 2013; Timpe, 2013)
• Identify ALDH isoform 5A1 as a potential target for treatment of human breast ductal carcinoma (Kaur, 2012); and determine that combination of an anti-EGFR anti-VEGFR treatment using ZD6474 with phototherapy (UV-B) is more effective in treating breast cancer than either treatment alone (Sarkar, 2013)
• Demonstrate that although SIRT deacetylates p53, it does not play a role in cell survival following DNA damage (Solomon, 2006)
• Demonstrate the important roles of tumor suppressor Maspin by showing that it promotes mammary epithelial differentiation via its interaction with IRF6 (Bailey, 2008); mediates effects of IFN-γ on vacuolar pH, cathepsin D processing and autophagy, protects extracellular matrix (ECM) from degradation in normal mammary epithelia, and that Maspin loss in metastatic cancer leads to unrestricted ECM degradation, contributing to metastasis (Khalkhali-Ellis, 2007, 2008); and show that loss of EcSOD expression also promotes invasiveness by disrupting ECM (Teoh-Fitzgerald, 2012, 2013)
• Investigate the role of shortened telomeres in initiation of genomic instability, cytokinesis failure and polyploidy (Tusell, 2008; Soler, 2009; Pampalona, 2012); and elucidate the role of Myc in malignancy by studying its ability to transform primary epithelial cells (Thibodeaux, 2009)
• Demonstrate, along with Human dermal Fibroblasts, that resveratrol inhibits mono-ubiquitination of histone H2B (Gao, 2011)

HMEpC, along with Human Prostate Epithelial Cells, have also been used in a study demonstrating that TGF-b1 induces Smad 1/5/8 and Smad 2/3 phosphorylation and BMP signaling results only in Smad 1/5/8 phosphorylation in these primary epithelial cells, while in cancer cells BMP also elicits Smad2/3 activation, contributing to cancerogenesis (Holtzhausen, 2013).

Characterization: the cells have a characteristic morphology consistent with an epithelial origin and are positive for epithelial cell marker cytokeratin 18.

Cell Line Origin

Mammary Gland

Application

antitumor properties, glycoprotein expression, breast cancer treatment approaches, DNA damage, cell differentiation, effects of growth factors

Components

Cell Basal Medium containing 10% FBS & 10% DMSO

Preparation Note

• 5th passage, >500,000 cells in Cell Basal Medium containing 10% FBS & 10% DMSO
• Can be cultured at least 16 doublings

Subculture Routine

Please refer to the HMEpC Culture Protocol.

biological source: human mammary glands (normal). Quality Level: 100. packaging: pkg of 500,000 . cells. manufacturer/tradename: Cell Applications, Inc. growth mode: Adherent. karyotype: 2n : 46. morphology: epithelial. technique(s): cell culture | mammalian: suitable. relevant disease(s): cancer. shipped in: liquid nitrogen. storage temp.: −. 196°C. Storage Class Code: 11 - Combustible Solids. WGK: WGK 3. Flash Point(F): Not applicable. Flash Point(C): Not applicable.