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Vergara, Daniele; Simeone, Pasquale; Latorre, Dominga; Cascione, Francesca; Leporatti, Stefano; Trerotola, Marco; Giudetti, Anna Maria; Capobianco, Loredana; Lunetti, Paola; Rizzello, Antonia; Rinaldi, Rosaria; Alberti, Saverio; Maffia, Michele
Journal of biotechnology, 05/2015, Volume: 202Journal Article
•Loss of E-cadherin induces the activation of EMT factors in breast cancer cells.•Loss of E-cadherin results in functional and biophysical differences in breast cancer cells.•Mass spectrometry analysis identifies proteome changes related to E-cadherin knockdown.•Proteins involved in the regulation of cell metabolism, oxidative stress, cytoskeletal rearrangements, cell motility, and survival were found differentially expressed. E-cadherin is the core protein of the epithelial adherens junction. Through its cytoplasmic domain, E-cadherin interacts with several signaling proteins; among them, α- and β-catenins mediate the link of E-cadherin to the actin cytoskeleton. Loss of E-cadherin expression is a crucial step of epithelial-mesenchymal transition (EMT) and is involved in cancer invasion and metastatization. In human tumors, down-regulation of E-cadherin is frequently associated with poor prognosis. Despite the critical role of E-cadherin in cancer progression, little is known about proteome alterations linked with its down-regulation. To address this point, we investigated proteomics, biophysical and functional changes of epithelial breast cancer cell lines upon shRNA-mediated stable knockdown of E-cadherin expression (shEcad). shEcad cells showed a distinct proteomic signature including altered expression of enzymes and proteins involved in cytoskeletal dynamic and migration. Moreover, these results suggest that, besides their role in mechanical adhesion, loss of E-cadherin expression may contribute to cancer progression by modifying a complex network of pathways that tightly regulate fundamental processes as oxidative stress, immune evasion and cell metabolism. Altogether, these results extend our knowledge on the cellular modifications associated with E-cadherin down-regulation in breast cancer cells.
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