Abstract
AimsAcquired resistance to cyclin-dependent kinase 4/6 inhibitors (CDK4/6i) frequently emerges, and CDK4/6i-containing therapies in triple-negative breast cancer (TNBC) remain to be determined. MethodsRNA-sequencing, cell viability analysis, immunoblotting, siRNA transfection et al. were used to investigate and verify the resistance mechanism. BALB/c nude mice xenograft models and spontaneous MMTV-PyMT models were used to explore in vivo efficacy. ResultsThe mTOR pathway was activated in acquired CDK4/6i-resistant cells and inhibition of mTORC1 restored the sensitivity. While fasting-mimicking diet (FMD) enhances the activity of anticancer agents by inhibiting the mTORC1 signaling, we assessed FMD and found that FMD restored the sensitivity of CDK4/6i-resistant cells to abemaciclib and potentiated the anti-tumor activity of CDK4/6i in TNBC. The anti-tumor effects of FMD and/or CDK4/6i were accompanied by the downregulation of S6 phosphorylation. FMD cooperated with CDK4/6i to suppress the levels of IGF1 and RAS. The combination of FMD and abemaciclib also led to a potent inhibition of tumor growth in spontaneous transgenic MMTV-PyMT mouse models. ConclusionsOur data demonstrate that FMD overcomes resistance and potentiates the anti-tumor effect of CDK4/6i by inhibiting mTORC1 signaling via lowering the levels of IGF1 and RAS, providing the rationale for clinical investigation of a potential FMD-CDK4/6i strategy in breast cancer.
Published Version
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