Loss of the tumour suppressor LKB1/STK11 uncovers a leptin-mediated sensitivity mechanism to mitochondrial uncouplers for targeted cancer therapy

Russell Petty, Rory McCrimmon, Angelos Papaspyropoulos (Lead / Corresponding author), Vassilis G. Gorgoulis (Lead / Corresponding author)

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Abstract

Non-small cell lung cancer (NSCLC) constitutes one of the deadliest and most common malignancies. The LKB1/STK11 tumour suppressor is mutated in ∼ 30% of NSCLCs, typically lung adenocarcinomas (LUAD). We implemented zebrafish and human lung organoids as synergistic platforms to pre-clinically screen for metabolic compounds selectively targeting LKB1-deficient tumours. Interestingly, two kinase inhibitors, Piceatannol and Tyrphostin 23, appeared to exert synthetic lethality with LKB1 mutations. Although LKB1 loss alone accelerates energy expenditure, unexpectedly we find that it additionally alters regulation of the key energy homeostasis maintenance player leptin (LEP), further increasing the energetic burden and exposing a vulnerable point; acquired sensitivity to the identified compounds. We show that compound treatment stabilises Hypoxia-inducible factor 1-alpha (HIF1A) by antagonising Von Hippel-Lindau (VHL)-mediated HIF1A ubiquitination, driving LEP hyperactivation. Importantly, we demonstrate that sensitivity to piceatannol/tyrphostin 23 epistatically relies on a HIF1A-LEP-Uncoupling Protein 2 (UCP2) signaling axis lowering cellular energy beyond survival, in already challenged LKB1-deficient cells. Thus, we uncover a pivotal metabolic vulnerability of LKB1-deficient tumours, which may be therapeutically exploited using our identified compounds as mitochondrial uncouplers.
Original languageEnglish
Article number147
Number of pages13
JournalMolecular Cancer
DOIs
Publication statusPublished - 25 Jul 2024

Keywords

  • Non-small cell lung cancer (NSCLC)
  • LKB1/STK11
  • HIF1A-LEP-UCP2 axis
  • Zebrafish
  • Metabolic stress
  • Piceatannol
  • Tyrphostin 23
  • Airway organoids
  • CRISPR/Cas9-mediated genome editing
  • Drug discovery

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