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Abstract
Flaxseed (FS) reduces breast tumorigenesis and human epidermal growth factor receptor 2 (HER2) expression in postmenopausal patients and animal models. The primary treatment for HER2-overexpressing tumors is trastuzumab (TRAS). FS oil enhances TRAS effectiveness in athymic mice but the FS effect is unknown and was therefore determined. Athymic mice with established BT-474 tumors were fed the basal diet (control), or 10% FS diet, with or without TRAS (2.5mg/kg) treatment for 5 wk. After 2 wk, TRAS and FS reduced tumor size with a trend for an FS × TRAS interaction; however, after 5 wk, only TRAS reduced tumor size and increased tumor apoptosis. FS did not further improve TRAS effect but increased overall survival. TRAS reduced signaling biomarkers [phosphorylated HER2 and mitogen-activated protein kinase (MAPK) proteins; Akt1, Akt2, MAPK, and estrogen receptor-α mRNA], FS reduced phosphorylated-Akt1 protein, and FS × TRAS interactions were seen for HER2 mRNA and phosphorylated-Akt1 protein. FS, with and without TRAS, increased tumor n-3 PUFA levels and serum lignans indicating potential roles in the observed effect. In conclusion, TRAS reduces tumor growth by influencing HER2 signaling. Dietary FS has minimal tumor-reducing effect, does not interfere with TRAS action, but improves overall survival in athymic mice.
ACKNOWLEDGMENTS
Julie K. Mason and Ming-Hua Fu contributed equally to the research presented in this article. We thank the American Institute for Cancer Research and Diana Dyer Cancer Survivor's Nutrition Research Endowment (LUT) and Vanier Canada Graduate Scholarship (JM) for financial support, Glanbia Nutritionals for providing the flaxseed, and Dr. Richard Bazinet for the use of his GC.