Poly (ADP-ribose) polymerase inhibitors (PARPi) have showed clinical benefit as maintenance therapy in advanced ovarian cancer by impairing the homologous recombination (HR) pathway. Pyruvate kinase M2 (PKM2), the significant cancer metabolic biomarker, integrates with DNA damage to directly promote HR. We aimed to investigate the role and molecular mechanism of PKM2 downregulation on sensitization of ovarian cancer cells to PARPi. Inhibitory effects in vitro were assessed by cell viability, clone formation, transwell assay, and flow cytometry. Downregulation of PKM2 by siRNA or small molecular inhibitor shikonin (Sk) enhanced anti-tumour activity of olaparib (Ola) in ovarian cancer cells. Silencing PKM2 or Sk synergized with Ola and reduced cell growth, colony formation and migration, and induced apoptosis. Western blot and immunofluorescence demonstrated that inhibition of PKM2 amplified Ola-induced γH2AX and phospho-ATM (p-ATM) activation and interfered with BRCA1 accumulation in the nucleus. A xenograft animal model demonstrated in vivo antitumor combination effect of Sk and Ola. Furthermore, Western blot and immunofluorenscent analyses of tissue samples revealed that treatment of Sk increased DNA damage, reduced expression of BRCA1 and PKM2. Therefore, this study identified that PKM2 downregulation is a novel therapeutic strategy to enhance Ola effectiveness in treating ovarian cancer.
Keywords: DNA damage; PKM2; homologous recombination; olaparib; ovarian cancer.
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