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Sequential activation of E2F via Rb degradation and c-Myc drives resistance to CDK4/6 inhibitors in breast cancer

Sung Soo Kim, Jessica Armand, Anton Safonov, Mimi Zhang, Rajesh K. Soni, Gary K. Schwartz, Julia E. McGuinness, Hanina Hibshoosh, Pedram Razavi, Minah Kim, Sarat Chandarlapaty, Hee Won Yang

2023Cell Reports56 citationsDOIOpen Access PDF

Abstract

Cyclin-dependent kinase 4 and 6 inhibitors (CDK4/6i) are key therapeutic agents in the management of metastatic hormone-receptor-positive breast cancer. However, the emergence of drug resistance limits their long-term efficacy. Here, we show that breast cancer cells develop CDK4/6i resistance via a sequential two-step process of E2F activation. This process entails retinoblastoma (Rb)-protein degradation, followed by c-Myc-mediated amplification of E2F transcriptional activity. CDK4/6i treatment halts cell proliferation in an Rb-dependent manner but dramatically reduces Rb-protein levels. However, this reduction in Rb levels insufficiently induces E2F activity. To develop CDK4/6i resistance, upregulation or activating mutations in mitogenic or hormone signaling are required to stabilize c-Myc levels, thereby augmenting E2F activity. Our analysis of pre-treatment tumor samples reveals a strong correlation between c-Myc levels, rather than Rb levels, and poor therapeutic outcomes after CDK4/6i treatment. Moreover, we propose that proteasome inhibitors can potentially reverse CDK4/6i resistance by restoring Rb levels.

Topics & Concepts

E2FRetinoblastoma proteinCancer researchDownregulation and upregulationCyclin D1Breast cancerCyclin-dependent kinase 4KinaseProteasomeProtein degradationCancerCell cycleChemistryBiologyInternal medicineCell biologyProtein kinase AMedicineCyclin-dependent kinase 2BiochemistryGeneAdvanced Breast Cancer TherapiesCancer-related Molecular PathwaysChronic Lymphocytic Leukemia Research
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