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ASO-Based PKM Splice-Switching Therapy Inhibits Hepatocellular Carcinoma Growth

Wai Kit, Dillon M. Voss, Juergen Scharner, Ana S.H. Costa, Kuan‐Ting Lin, Hyun Yong Jeon, John E. Wilkinson, Michaela Jackson, Frank Rigo, C. Frank Bennett, Adrian R. Krainer

2021Cancer Research117 citationsDOIOpen Access PDF

Abstract

The M2 pyruvate kinase (PKM2) isoform is upregulated in most cancers and plays a crucial role in regulation of the Warburg effect, which is characterized by the preference for aerobic glycolysis over oxidative phosphorylation for energy metabolism. PKM2 is an alternative-splice isoform of the PKM gene and is a potential therapeutic target. Antisense oligonucleotides (ASO) that switch PKM splicing from the cancer-associated PKM2 to the PKM1 isoform have been shown to induce apoptosis in cultured glioblastoma cells when delivered by lipofection. Here, we explore the potential of ASO-based PKM splice switching as a targeted therapy for liver cancer. A more potent lead constrained-ethyl (cEt)/DNA ASO induced PKM splice switching and inhibited the growth of cultured hepatocellular carcinoma (HCC) cells. This PKM isoform switch increased pyruvate-kinase activity and altered glucose metabolism. In an orthotopic HCC xenograft mouse model, the lead ASO and a second ASO targeting a nonoverlapping site inhibited tumor growth. Finally, in a genetic HCC mouse model, a surrogate mouse-specific ASO induced Pkm splice switching and inhibited tumorigenesis, without observable toxicity. These results lay the groundwork for a potential ASO-based splicing therapy for HCC. SIGNIFICANCE: Antisense oligonucleotides are used to induce a change in PKM isoform usage in hepatocellular carcinoma, reversing the Warburg effect and inhibiting tumorigenesis.

Topics & Concepts

PKM2Cancer researchWarburg effectCarcinogenesisAlternative splicingAnaerobic glycolysisCancerChemistryHepatocellular carcinomaGene isoformGlycolysisCancer cellBiologyMolecular biologyPyruvate kinaseBiochemistryGeneMetabolismGeneticsCancer, Hypoxia, and MetabolismRNA Research and SplicingMitochondrial Function and Pathology
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