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Glucose-6-phosphate dehydrogenase maintains redox homeostasis and biosynthesis in LKB1-deficient KRAS-driven lung cancer

Author

Listed:
  • Taijin Lan

    (Rutgers Cancer Institute)

  • Sara Arastu

    (Rutgers Cancer Institute)

  • Jarrick Lam

    (Rutgers Cancer Institute)

  • Hyungsin Kim

    (Rutgers Cancer Institute)

  • Wenping Wang

    (Rutgers Cancer Institute)

  • Samuel Wang

    (Rutgers Cancer Institute)

  • Vrushank Bhatt

    (Rutgers Cancer Institute)

  • Eduardo Cararo Lopes

    (Rutgers Cancer Institute
    Rutgers University)

  • Zhixian Hu

    (Rutgers Cancer Institute)

  • Michael Sun

    (Rutgers Cancer Institute)

  • Xuefei Luo

    (Rutgers Cancer Institute)

  • Jonathan M. Ghergurovich

    (Princeton University)

  • Xiaoyang Su

    (Rutgers Cancer Institute
    Rutgers Robert Wood Johnson Medical School)

  • Joshua D. Rabinowitz

    (Rutgers Cancer Institute
    Princeton University
    Princeton University
    Princeton University)

  • Eileen White

    (Rutgers Cancer Institute
    Rutgers University
    Princeton University)

  • Jessie Yanxiang Guo

    (Rutgers Cancer Institute
    Rutgers Robert Wood Johnson Medical School
    Rutgers Ernest Mario School of Pharmacy)

Abstract

Cancer cells depend on nicotinamide adenine dinucleotide phosphate (NADPH) to combat oxidative stress and support reductive biosynthesis. One major NADPH production route is the oxidative pentose phosphate pathway (committed step: glucose-6-phosphate dehydrogenase, G6PD). Alternatives exist and can compensate in some tumors. Here, using genetically-engineered lung cancer mouse models, we show that G6PD ablation significantly suppresses KrasG12D/+;Lkb1-/- (KL) but not KrasG12D/+;P53-/- (KP) lung tumorigenesis. In vivo isotope tracing and metabolomics reveal that G6PD ablation significantly impairs NADPH generation, redox balance, and de novo lipogenesis in KL but not KP lung tumors. Mechanistically, in KL tumors, G6PD ablation activates p53, suppressing tumor growth. As tumors progress, G6PD-deficient KL tumors increase an alternative NADPH source from serine-driven one carbon metabolism, rendering associated tumor-derived cell lines sensitive to serine/glycine depletion. Thus, oncogenic driver mutations determine lung cancer dependence on G6PD, whose targeting is a potential therapeutic strategy for tumors harboring KRAS and LKB1 co-mutations.

Suggested Citation

  • Taijin Lan & Sara Arastu & Jarrick Lam & Hyungsin Kim & Wenping Wang & Samuel Wang & Vrushank Bhatt & Eduardo Cararo Lopes & Zhixian Hu & Michael Sun & Xuefei Luo & Jonathan M. Ghergurovich & Xiaoyang, 2024. "Glucose-6-phosphate dehydrogenase maintains redox homeostasis and biosynthesis in LKB1-deficient KRAS-driven lung cancer," Nature Communications, Nature, vol. 15(1), pages 1-18, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-50157-8
    DOI: 10.1038/s41467-024-50157-8
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