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α-Ketoglutarate links p53 to cell fate during tumour suppression

Author

Listed:
  • John P. Morris

    (Memorial Sloan Kettering Cancer Center)

  • Jossie J. Yashinskie

    (Memorial Sloan Kettering Cancer Center
    Memorial Sloan Kettering Cancer Center
    Cornell University)

  • Richard Koche

    (Memorial Sloan Kettering Cancer Center)

  • Rohit Chandwani

    (Weill Cornell Medical College
    Memorial Sloan Kettering Cancer Center
    Memorial Sloan Kettering Cancer Center
    Weill Cornell Medical College)

  • Sha Tian

    (Memorial Sloan Kettering Cancer Center)

  • Chi-Chao Chen

    (Memorial Sloan Kettering Cancer Center)

  • Timour Baslan

    (Memorial Sloan Kettering Cancer Center)

  • Zoran S. Marinkovic

    (New York University)

  • Francisco J. Sánchez-Rivera

    (Memorial Sloan Kettering Cancer Center)

  • Steven D. Leach

    (Memorial Sloan Kettering Cancer Center
    Memorial Sloan Kettering Cancer Center
    Geisel School of Medicine at Dartmouth)

  • Carlos Carmona-Fontaine

    (New York University)

  • Craig B. Thompson

    (Memorial Sloan Kettering Cancer Center
    Memorial Sloan Kettering Cancer Center)

  • Lydia W. S. Finley

    (Memorial Sloan Kettering Cancer Center
    Memorial Sloan Kettering Cancer Center)

  • Scott W. Lowe

    (Memorial Sloan Kettering Cancer Center
    Janelia Research Campus)

Abstract

The tumour suppressor TP53 is mutated in the majority of human cancers, and in over 70% of pancreatic ductal adenocarcinoma (PDAC)1,2. Wild-type p53 accumulates in response to cellular stress, and regulates gene expression to alter cell fate and prevent tumour development2. Wild-type p53 is also known to modulate cellular metabolic pathways3, although p53-dependent metabolic alterations that constrain cancer progression remain poorly understood. Here we find that p53 remodels cancer-cell metabolism to enforce changes in chromatin and gene expression that favour a premalignant cell fate. Restoring p53 function in cancer cells derived from KRAS-mutant mouse models of PDAC leads to the accumulation of α-ketoglutarate (αKG, also known as 2-oxoglutarate), a metabolite that also serves as an obligate substrate for a subset of chromatin-modifying enzymes. p53 induces transcriptional programs that are characteristic of premalignant differentiation, and this effect can be partially recapitulated by the addition of cell-permeable αKG. Increased levels of the αKG-dependent chromatin modification 5-hydroxymethylcytosine (5hmC) accompany the tumour-cell differentiation that is triggered by p53, whereas decreased 5hmC characterizes the transition from premalignant to de-differentiated malignant lesions that is associated with mutations in Trp53. Enforcing the accumulation of αKG in p53-deficient PDAC cells through the inhibition of oxoglutarate dehydrogenase—an enzyme of the tricarboxylic acid cycle—specifically results in increased 5hmC, tumour-cell differentiation and decreased tumour-cell fitness. Conversely, increasing the intracellular levels of succinate (a competitive inhibitor of αKG-dependent dioxygenases) blunts p53-driven tumour suppression. These data suggest that αKG is an effector of p53-mediated tumour suppression, and that the accumulation of αKG in p53-deficient tumours can drive tumour-cell differentiation and antagonize malignant progression.

Suggested Citation

  • John P. Morris & Jossie J. Yashinskie & Richard Koche & Rohit Chandwani & Sha Tian & Chi-Chao Chen & Timour Baslan & Zoran S. Marinkovic & Francisco J. Sánchez-Rivera & Steven D. Leach & Carlos Carmon, 2019. "α-Ketoglutarate links p53 to cell fate during tumour suppression," Nature, Nature, vol. 573(7775), pages 595-599, September.
  • Handle: RePEc:nat:nature:v:573:y:2019:i:7775:d:10.1038_s41586-019-1577-5
    DOI: 10.1038/s41586-019-1577-5
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    Cited by:

    1. Mei Zhao & Tianxiao Wang & Frederico O. Gleber-Netto & Zhen Chen & Daniel J. McGrail & Javier A. Gomez & Wutong Ju & Mayur A. Gadhikar & Wencai Ma & Li Shen & Qi Wang & Ximing Tang & Sen Pathak & Mari, 2024. "Mutant p53 gains oncogenic functions through a chromosomal instability-induced cytosolic DNA response," Nature Communications, Nature, vol. 15(1), pages 1-18, December.

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