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Respiration defects limit serine synthesis required for lung cancer growth and survival

Author

Listed:
  • Eduardo Cararo Lopes

    (Rutgers Cancer Institute
    Rutgers University)

  • Fuqian Shi

    (Rutgers Cancer Institute)

  • Akshada Sawant

    (Rutgers Cancer Institute
    Princeton University)

  • Maria Ibrahim

    (Rutgers Cancer Institute
    Princeton University)

  • Maria Gomez-Jenkins

    (Rutgers Cancer Institute
    Princeton University)

  • Zhixian Hu

    (Rutgers Cancer Institute
    Princeton University)

  • Pranav Manchiraju

    (Rutgers Cancer Institute)

  • Vrushank Bhatt

    (Rutgers Cancer Institute)

  • Wenping Wang

    (Rutgers Cancer Institute)

  • Christian S. Hinrichs

    (Rutgers Cancer Institute)

  • Douglas C. Wallace

    (University of Pennsylvania)

  • Xiaoyang Su

    (Rutgers Cancer Institute
    Rutgers University)

  • Joshua D. Rabinowitz

    (Rutgers Cancer Institute
    Princeton University
    Princeton University
    Princeton University)

  • Chang S. Chan

    (Rutgers Cancer Institute
    Rutgers University)

  • Jessie Yanxiang Guo

    (Rutgers Cancer Institute
    Rutgers University
    Rutgers Ernest Mario School of Pharmacy)

  • Shridar Ganesan

    (Rutgers Cancer Institute
    Rutgers University)

  • Edmund C. Lattime

    (Rutgers Cancer Institute
    Rutgers University)

  • Eileen White

    (Rutgers Cancer Institute
    Rutgers University
    Princeton University)

Abstract

Mitochondrial function supports energy and anabolic metabolism. Pathogenic mitochondrial DNA (mtDNA) mutations impair these processes, causing mitochondrial diseases. Their role in human cancers is less clear; while some cancers harbor high mtDNA mutation burden, others do not. Here we show that a proofreading mutant of DNA polymerase gamma (PolGD256A) increases the mtDNA mutation burden in non-small-cell lung cancer (NSCLC). This mutation promotes the accumulation of defective mitochondria, reduces tumor cell proliferation and viability, and improves cancer survival. In NSCLC, pathogenic mtDNA mutations enhance glycolysis and create a glucose dependency to support mitochondrial energy, but at the expense of a lower NAD+/NADH ratio that hinders de novo serine synthesis. Thus, mitochondrial function in NSCLC is essential for maintaining adequate serine synthesis, which in turn supports the anabolic metabolism and redox homeostasis required for tumor growth, explaining why these cancers preserve functional mtDNA.

Suggested Citation

  • Eduardo Cararo Lopes & Fuqian Shi & Akshada Sawant & Maria Ibrahim & Maria Gomez-Jenkins & Zhixian Hu & Pranav Manchiraju & Vrushank Bhatt & Wenping Wang & Christian S. Hinrichs & Douglas C. Wallace &, 2025. "Respiration defects limit serine synthesis required for lung cancer growth and survival," Nature Communications, Nature, vol. 16(1), pages 1-17, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-62911-7
    DOI: 10.1038/s41467-025-62911-7
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