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Targeting Pyruvate Kinase M2 Phosphorylation Reverses Aggressive Cancer Phenotypes

Maria Apostolidi, Ioannis Vathiotis, Viswanathan Muthusamy, Patricia Gaule, Brandon M. Gassaway, David L. Rimm, Jesse Rinehart

2021Cancer Research65 citationsDOIOpen Access PDF

Abstract

Triple-negative breast cancer (TNBC) is the most aggressive breast cancer subtype with low survival rate and a lack of biomarkers and targeted treatments. Here, we target pyruvate kinase M2 (PKM2), a key metabolic component of oncogenesis. In patients with TNBC, PKM2pS37 was identified as a prominent phosphoprotein corresponding to the aggressive breast cancer phenotype that showed a characteristic nuclear staining pattern and prognostic value. Phosphorylation of PKM2 at S37 was connected with a cyclin-dependent kinase (CDK) pathway in TNBC cells. In parallel, pyruvate kinase activator TEPP-46 bound PKM2pS37 and reduced its nuclear localization. In a TNBC mouse xenograft model, treatment with either TEPP-46 or the potent CDK inhibitor dinaciclib reduced tumor growth and diminished PKM2pS37. Combinations of dinaciclib with TEPP-46 reduced cell invasion, impaired redox balance, and triggered cancer cell death. Collectively, these data support an approach to identify PKM2pS37-positive TNBC and target the PKM2 regulatory axis as a potential treatment. SIGNIFICANCE: PKM2 phosphorylation marks aggressive breast cancer cell phenotypes and targeting PKM2pS37 could be an effective therapeutic approach for treating triple-negative breast cancer.

Topics & Concepts

PKM2Triple-negative breast cancerCancer researchBreast cancerCyclin-dependent kinaseCancerKinasePyruvate kinaseCarcinogenesisBiologyMedicineGlycolysisInternal medicineCell cycleBiochemistryMetabolismCancer, Hypoxia, and MetabolismMetabolism, Diabetes, and CancerCancer-related Molecular Pathways
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