Overexpression of fatty acid synthase gene activates HER1/HER2 tyrosine kinase receptors in human breast epithelial cells

. Objectives: More than 50 years ago, we learned that breast cancer cells (and those of many other types of tumour) endogenously synthesize 95% of fatty acids (FAs) de novo, despite having adequate nutritional lipid supply. Today, we know that breast cancer cells benefit from this phenomenon in terms of enhanced cell proliferation, survival, chemoresistance and metastasis. However, the exact role of the major lipogenic enzyme fatty acid synthase (FASN) as cause, correlate or facilitator of breast cancer remains unidentified. Materials and methods: To evaluate a causal effect of FASN‐catalysed endogenous FA biosynthesis in the natural history of breast cancer disease, HBL100 cells (an SV40‐transformed in vitro model for near‐normal gene expression in the breast epithelium), and MCF10A cells (a non‐transformed, near diploid, spontaneously immortalized human mammary epithelial cell line) were acutely forced to overexpress the human FASN gene. Results: Following transient transfection with plasmid pCMV6‐XL4 carrying full‐length human FASN cDNA (gi: NM 004104), HBL100 cells enhanced their endogenous lipid synthesis while acquiring canonical oncogenic properties such as increased size and number of colonies in semisolid (i.e. soft‐agar) anchorage‐independent cultures. Anchorage‐dependent cell proliferation assays in low serum (0.1% foetal bovine serum), MTT‐based assessment of cell metabolic status and cell death ELISA‐based detection of apoptosis‐induced DNA‐histone fragmentation, together revealed that sole activation of endogenous FA biosynthesis was sufficient to significantly enhance breast epithelial cell proliferation and survival. When analysing molecular mechanisms by which acute activation of de novo FA biosynthesis triggered a transformed phenotype, HBL100 cells, transiently transfected with pCMV6‐XL4/FASN, were found to exhibit a dramatic increase in the number of phosphor‐tyrosine (Tyr)‐containing proteins, as detected by 4G10 antiphosphor‐Tyr monoclonal antibody. Phosphor‐Tyr‐specific antibodies recognizing the phosphorylation status of either the 1173 Tyr residue of epidermal growth factor receptor (HER1) or the 1248 Tyr residue of HER2, further revealed that FASN‐induced Tyr‐phosphorylation at ∼180 kDa region mainly represented that of these key members of the HER (erbB) network, which remained switched‐off in mock‐transfected HBL100 cells. ELISA and immunoblotting procedures demonstrated that FASN overactivation significantly increased (> 200%)