Primary TNBCs are treated as if they were a single disease entity, yet it is clear they do not behave as a single entity in response to current therapies. Recently, we reported that statins might have a potential benefit for TNBCs associated with ets-1 overexpression. The aim of this study is to investigate the role of PTEN loss in the effects of statin on TNBC cells. In addition, we analyze the relationship between AKT downstream pathways and the effects of statin on TNBC cells. We investigated the effect of a statin on TNBC cells and analyzed the association of PI3K pathways using various TNBC cells in terms of PTEN loss and AKT pathways. Simvastatin treatments resulted in decreased cell viabilities in various TNBC cell lines. Compared with PTEN wild-type TNBC cells, PTEN mutant-type TNBC cells showed a decreased response to simvastatin. Expressions of phosphorylated Akt and total Akt showed an inverse relationship with PTEN expression. The TNBC cell lines, which showed increased expression of p-Akt, appeared to attenuate the expression of p-Akt by PTEN loss in simvastatin-treated TNBC cells. The Akt inhibitor, LY294002, augmented the effect of simvastatin on PTEN wild-type TNBC cells. Simvastatin induces inhibition of TNBC cells via PI3K pathway activation.
Keywords: PI3K pathway; Statin; Triple negative breast cancer.
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