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Lipid raft disruption by docosahexaenoic acid induces apoptosis in transformed human mammary luminal epithelial cells harboring HER-2 overexpression
Authors:Graziela Rosa Ravacci  Maria Mitzi Brentani  Tharcisio Tortelli  Raquel Suzana M.M. Torrinhas  Tatiana Saldanha  Elizabeth Aparecida F.S. Torres  Dan Linetzky Waitzberg
Affiliation:1. Department of Oncology Medical School, University of São Paulo, 01246-903 São Paulo, Brazil;2. Department of Gastroenterology Medical School, University of São Paulo-LIM 35, 01246-903 São Paulo, Brazil;3. Department of Food Technology, Federal Rural University of Rio de Janeiro, 23890-000 Rio de Janeiro, Brazil;4. Public Health Faculty, University of São Paulo-LIM 35, 01246-903 São Paulo, Brazil
Abstract:In HER-2-overexpressing breast cells, HER-2 receptors exist on the cell surface as monomers, homodimers and heterodimers. For signal activation and transduction to occur, HER-2 must be localized to lipid rafts. Therefore, we hypothesized that the amount of lipid rafts on the cell membrane would be a factor in HER-2 signaling. To test this, we used HB4a (an untransformed human mammary epithelial cell line) and HB4aC5.2 cells. HB4aC5.2 cells are HB4a derivatives that have been transfected with five copies of pJ5E.c-ErbB-2 and express approximately 900 times more HER-2 than HB4a cells. In these cells, HER-2 overexpression was accompanied by increased lipid rafts in cell membranes, a hyperactivation of downstream Akt and ERK1/2 proteins, and an increased rate of cell growth compared to HB4a. In addition, HER-2 overexpression was associated with an increased activation of FASN, a key enzyme involved in cellular lipogenesis. Its final product, palmitate, is frequently used to synthesize lipid rafts. We further hypothesized that treatment with docosahexaenoic acid (DHA), an omega-3 fatty acid, would disrupt the lipid rafts and lead to a growth arrest. In HB4aC5.2 cells, but not HB4a cells, we found that DHA treatment disrupted lipid raft; inhibited HER-2 signaling by decreasing activation of Akt, ERK1/2 and FASN proteins; and induced apoptosis. Although little is known about lipid rafts, our data support the idea that disturbances in these microdomains induced by DHA may represent a useful tool for controlling the signaling initiated by HER-2 receptors and its therapeutic potential in the treatment of HER-2 positive breast cancer.
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