Abstract

Prostate cancers, like many other types of cancer, express elevated levels of fatty acid synthase (FASN) to make more fatty acids, which are required for energy, signaling, and proliferation. Because inhibition of FASN has been shown to sensitize tumors to chemotherapy and radiation, we studied the effect of C75, a radiosensitizing FASN inhibitor, and compared its single agent and radiosensitizing activities in 2 prostate cancer cell lines, PC3 and LNCaP, with alternative FASN inhibitors that have progressed into clinical trials. We also investigated the effect of serum and fatty acid supplementation on responses to FASN inhibitors, probing expression of key proteins related to fatty acid uptake in response to FASN inhibition, irradiation, and serum lipid concentration and how this may be modulated to increase the potency of C75. We demonstrated that C75 was the only FASN inhibitor to sensitize cells to ionizing radiation; no sensitization was apparent with FASN inhibitors TVB-3166 or Orlistat. The prostate cancer cell lines were able to take up fatty acids from the culture medium, and the availability of fatty acids affected sensitivity of these cells to C75 but not the other FASN inhibitors tested. C75 also increased expression of fatty acid transporter proteins FATP1 and CD36. Furthermore, blocking CD36 with antibody increased the sensitivity of cells to C75. We suggest that the potency of C75 is affected by fatty acid availability and that the effectiveness of FASN inhibitors in combination with ionizing radiation can be further enhanced by regulating fatty acid uptake.

Highlights

  • Sources of support: Chief Scientist Office, Scotland

  • To further investigate whether the serum-dependent effects on cells and sensitivity to C75 were caused by differences in the fatty acid availability, we investigated the expression of proteins known to transport fatty acids into cells, fatty acid transporter 1 (FATP1), and CD36

  • Inhibitors of FASN differ in their interaction with the enzyme, with Orlistat inhibiting the thioesterase domain of fatty acid synthase,[17] whereas C75 binds to the b-ketoacyl synthase domain.[8]

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Summary

Methods

All cell culture media and supplements were purchased from Life Technologies (UK) unless stated otherwise. Drugs, and oleic acid-bovine serum albumin solution were from Sigma-Aldrich (UK). Stock solutions of drugs were prepared in dimethyl sulfoxide (DMSO). Vehicle control treatments contained DMSO in culture medium. 10 mg/mL CD36 blocking antibody (mouse monoclonal; Santa Cruz Biotechnology, Germany) or control antibody IgG isotype control; Insight Biotechnology, UK) was used.

Results
Discussion
Conclusion

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