Lycopene Treatment of Prostate Cancer Cell Lines Inhibits Adhesion and Migration Properties of the Cells

Background: Consumption of lycopene through tomato products has been suggested to reduce the risk of prostate cancer. Cellular adhesion and migration are important features of cancer progression and therefore a potential target for cancer interception. In the present study we have examined the in vitro effect of lycopene on these processes. Methods: Prostate cancer cell lines PC3, DU145 and immortalised normal prostate cell line PNT-2 were used. The adhesion assay consisted of seeding pre-treated cells onto Matrigel™, gently removing non-adherent cells and quantitating the adherent fraction using WST-1. Migratory potential was assessed using ibidi™ migration chamber inserts, in which a cell-free zone between two confluent areas was allowed to populate over time and the migration measured. Results: 24 hour incubation of prostate cell lines with 1.15µmol/l lycopene showed a 40% reduction of cellular motility in case of PC3 cells, 58% in DU145 cells and no effect was observed for PNT2 cells. A dose related inhibition of cell adhesion to a basement membrane in the form of Matrigel™ was observed in all three cell lines and it reached statistical significance for PC3 and PNT2 cells at lycopene concentrations ≥1.15µmol/l. However, in case of DU145, only a concentration of 2.3µmol/l showed a significant reduction. Conclusion: This in vitro investigation indicates that lycopene can influence the cell adhesion and migration properties of cancer cells at a dose which is arguably achievable in patients. The results of our study expand our understanding of a chemo preventive role of lycopene in prostate cancer.