Long-Term Treatment with Simvastatin Leads to Reduced Migration Capacity of Prostate Cancer Cells.
Mona KafkaRebecca GruberHannes NeuwirtMichael LadurnerIris E EderPublished in: Biomedicines (2022)
Statins have been shown to improve survival of metastatic prostate cancer (mPCa). Nevertheless, their therapeutic use is still under debate. In the present study, we investigated the short-term effects of three different statins (simvastatin, atorvastatin and rosuvastatin) in various PCa cell lines mimicking androgen-sensitive and -insensitive PCa. Moreover, we generated three new PCa cell lines (LNCaPsim, ABLsim, PC-3sim) that were cultured with simvastatin over several months. Our data showed that the three statins expressed highly diverse short-term effects, with the strongest growth-inhibitory effect from simvastatin in PC-3 cells and almost no effect from rosuvastatin in any of the cell lines. Long-term treatment with simvastatin resulted in a loss of response to statins in all three cell lines, which was associated with an upregulation of cholesterol and fatty acid pathways as revealed through RNA sequencing. Despite that, long-term treated cells exhibited diminished spheroid growth and significantly reduced migration capacity per se and to differentiated osteoclasts. These findings were strengthened by reduced expression of genes annotated to cell adhesion and migration after long-term simvastatin treatment. Notably, mPCa patients taking statins were found to have lower numbers of circulating tumor cells in their blood with reduced levels of PSA and alkaline phosphatase. Our data suggest that long-term usage of simvastatin hampers the metastatic potential of PCa cells and may therefore be a potential therapeutic drug for mPCa.
Keyphrases
- prostate cancer
- cardiovascular disease
- circulating tumor cells
- induced apoptosis
- squamous cell carcinoma
- end stage renal disease
- small cell lung cancer
- fatty acid
- poor prognosis
- newly diagnosed
- chronic kidney disease
- emergency department
- radical prostatectomy
- signaling pathway
- single cell
- endothelial cells
- machine learning
- risk assessment
- genome wide
- gene expression
- high resolution
- prognostic factors
- endoplasmic reticulum stress
- replacement therapy
- artificial intelligence
- mass spectrometry
- atomic force microscopy