• Medical hypotheses · Jan 2005

    Targeting fatty acid synthase-driven lipid rafts: a novel strategy to overcome trastuzumab resistance in breast cancer cells.

    • Javier A Menendez, Luciano Vellon, and Ruth Lupu.
    • Department of Medicine, Evanston Northwestern Healthcare Research Institute, 1001 University Place, Evanston, IL 60201, USA. javiermenendez72@yahoo.com
    • Med. Hypotheses. 2005 Jan 1; 64 (5): 997-1001.

    AbstractTrastuzumab (Herceptin) is a humanized antibody directed against the extracellular domain of the tyrosine kinase orphan receptor Her-2/neu (erbB-2) that has shown therapeutic efficacy against Her-2/neu-overexpressing breast tumors. However, less than 35% of patients with Her-2/neu-overexpressing metastatic breast cancer respond to trastuzumab as a single agent, whereas the remaining cases do not demonstrate tumor regression. Furthermore, the majority of patients who achieve an initial response generally acquire resistance within one year. Therefore, the identification of the potential mechanisms of resistance to trastuzumab can be very helpful for the development of new compounds, which might overcome that resistance and/or have additive/synergistic antitumor effect when given in association with trastuzumab. Recent studies in breast cancer cells have revealed a bi-directional connection between Her-2/neu and fatty acid synthase (FAS), a major lipogenic enzyme catalyzing the synthesis of long-chain saturated fatty acids from the 2-carbon donors malonyl-CoA and acetyl-CoA. Her-2/neu overexpression stimulates the FAS promoter and ultimately mediates increased endogenous fatty synthesis, and this Her-2/neu-mediated induction of breast cancer-associated FAS is inhibitable by trastuzumab. On the other hand, chemical FAS inhibitors as well as RNA interference-mediated silencing of FAS gene repress Her-2/neu gene expression at the transcriptional level. Moreover, specific FAS blockade synergistically sensitizes breast cancer cells carrying Her-2/neu-oncogene amplification and/or overexpression to trastuzumab-induced cell growth inhibition and apoptotic cell death. Strikingly, FAS inhibition synergistically interacts with trastuzumab in Her-2/neu-negative breast cancer cells engineered to overexpress Her-2/neu, thus suggesting that the molecular linkage between FAS activity and functioning of Her-2/neu cannot be explained only on the basis of a transcriptional repression of Her-2/neu gene promoter. Interestingly, while in liver and adipose tissue FAS produces fat from excess carbon consumed as carbohydrates, which is ultimately stored as triglycerides, in epithelial cancer cells, FAS activity is mainly involved in the production of phospholipids partitioning into detergent-resistant membrane microdomains (lipid raft-aggregates), which point to an active role of FAS in the deregulation of membrane functioning in tumor cells. Importantly, clusters of Her-2/neu and EGFR (erbB-1) co-localize with lipid rafts and the lipid environment in the cell membrane of breast cancer cells profoundly influences their association properties and biological functions. We hypothesize that pharmacological or small interference RNA-induced inhibition of breast cancer-associated FAS will result in major changes in the synthesis of phospholipids which, in turn, should impair a correct cellular localization of Her-2/neu at the cellular membrane of breast cancer cells. In this working model, FAS inhibition could induce a shift in the equilibrium between transport of Her-2/neu to and from the membrane favoring an increased Her-2/neu internalization followed by intracellular degradation, thus enhancing the mechanism of action of the anti-Her-2/neu antibody trastuzumab. Moreover, the inhibition of FAS-driven lipid rafts will also negatively affect EGFR-Her-2/neu cross-talk, an important mechanism of trastuzumab resistance. In summary, the specific blockade of a novel molecular linkage between FAS-regulated membrane composition and functioning of transmembrane growth factor receptors EGFR and Her-2/neu may represent a previously unrecognized therapeutic approach circumventing trastuzumab resistance in breast carcinomas.

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