Abstract
Triple-negative breast cancer (TNBC) patients have a predisposition to poor prognosis due to the strong malignancy. Ferroptosis, a new form of cell death, is a candidate treatment for TNBC owing to its effectiveness in killing cancer cells. However, some TNBC cells exhibit an abnormal tumor metabolism, especially the ferroptosis suppressor protein 1 (FSP1)-mediated ubiquinone redox metabolism, which can promote ferroptosis resistance. Here, rosuvastatin (RSV) is encapsulated in silk fibroin (SF) nanoparticle (designated as Cu-SF(RSV) NPs) for TNBC inhibition by overcoming FSP1-mediated ferroptosis resistance. RSV intervenes in metabolic mevalonate pathway to disturb the redox homeostasis regulated by CoQ/FSP1 axis, thereby overcoming ferroptosis resistance. Besides, Cu-SF(RSV) NPs can generate reactive oxygen species and deplete glutathione to facilitate redox stress, thereby amplifying ferroptosis effect. Thus, it is anticipated that the metabolic intervention nanoparticles, Cu-SF(RSV) NPs, can be exploited as a promising therapeutic platform for clinical TNBC treatment.