Cyclin-dependent kinase 4/6 inhibitors (CDK4/6i) have transformed the treatment landscape for hormone receptor+ (HR+) breast cancer. However, their long-term efficacy is limited by acquired resistance, and CDK4/6i monotherapy remains ineffective in triple-negative breast cancer (TNBC). Here, we demonstrate that dual inhibition of CDK4/6 and CDK7 is a promising strategy to overcome therapeutic resistance in both HR+ and TNBC models. Kinetic analyses revealed that CDK7 inhibitors (CDK7i) primarily impair RNA polymerase II–mediated transcription rather than directly targeting cell cycle CDKs. This transcriptional suppression attenuated E2F-driven transcriptional amplification, a key mechanism for developing CDK4/6i resistance following the degradation of the retinoblastoma protein. Consequently, combining CDK7i at minimal effective concentrations with CDK4/6i potently inhibited the growth of drug-resistant tumors. Furthermore, dual CDK4/6 and CDK7 inhibition stimulated immune-related signaling and cytokine production in cancer cells, promoting antitumor immune responses within the tumor microenvironment. These findings provide mechanistic insights into CDK inhibition and support the therapeutic potential of combining CDK7i with CDK4/6i for breast cancer treatment.
Sungsoo Kim, Eugene Son, Ha-Ram Park, Minah Kim, Hee Won Yang
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