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Short-term post-fast refeeding enhances intestinal stemness via polyamines

Author

Listed:
  • Shinya Imada

    (MIT)

  • Saleh Khawaled

    (MIT)

  • Heaji Shin

    (MIT)

  • Sven W. Meckelmann

    (University of Duisburg-Essen)

  • Charles A. Whittaker

    (Koch Institute at the MIT)

  • Renan Oliveira Corrêa

    (MIT
    University of Campinas
    University of Campinas)

  • Chiara Alquati

    (MIT
    University of Bologna)

  • Yixin Lu

    (MIT)

  • Guodong Tie

    (Dana-Farber Cancer Institute
    Harvard Medical School)

  • Dikshant Pradhan

    (Koch Institute at the MIT)

  • Gizem Calibasi-Kocal

    (MIT
    Dokuz Eylul University)

  • Luiza Martins Nascentes Melo

    (University Hospital Essen and German Cancer Consortium)

  • Gabriele Allies

    (University Hospital Essen and German Cancer Consortium)

  • Jonas Rösler

    (University Hospital Essen and German Cancer Consortium)

  • Pia Wittenhofer

    (University of Duisburg-Essen)

  • Jonathan Krystkiewicz

    (University Hospital Essen and German Cancer Consortium)

  • Oliver J. Schmitz

    (University of Duisburg-Essen)

  • Jatin Roper

    (Duke University
    Duke University)

  • Marco Aurelio Ramirez Vinolo

    (University of Campinas
    University of Campinas)

  • Luigi Ricciardiello

    (University of Bologna
    MD Anderson Cancer Center)

  • Evan C. Lien

    (Van Andel Institute)

  • Matthew G. Vander Heiden

    (MIT)

  • Ramesh A. Shivdasani

    (Dana-Farber Cancer Institute
    Harvard Medical School)

  • Chia-Wei Cheng

    (MIT
    Columbia University Irving Medical Center)

  • Alpaslan Tasdogan

    (University Hospital Essen and German Cancer Consortium)

  • Ömer H. Yilmaz

    (MIT
    Broad Institute of Harvard and MIT
    Massachusetts General Hospital and Harvard Medical School)

Abstract

For over a century, fasting regimens have improved health, lifespan and tissue regeneration in diverse organisms, including humans1–6. However, how fasting and post-fast refeeding affect adult stem cells and tumour formation has yet to be explored in depth. Here we demonstrate that post-fast refeeding increases intestinal stem cell (ISC) proliferation and tumour formation; post-fast refeeding augments the regenerative capacity of Lgr5+ ISCs, and loss of the tumour suppressor gene Apc in post-fast-refed ISCs leads to a higher tumour incidence in the small intestine and colon than in the fasted or ad libitum-fed states, demonstrating that post-fast refeeding is a distinct state. Mechanistically, we discovered that robust mTORC1 induction in post-fast-refed ISCs increases protein synthesis via polyamine metabolism to drive these changes, as inhibition of mTORC1, polyamine metabolite production or protein synthesis abrogates the regenerative or tumorigenic effects of post-fast refeeding. Given our findings, fast–refeeding cycles must be carefully considered and tested when planning diet-based strategies for regeneration without increasing cancer risk, as post-fast refeeding leads to a burst in stem-cell-driven regeneration and tumorigenicity.

Suggested Citation

  • Shinya Imada & Saleh Khawaled & Heaji Shin & Sven W. Meckelmann & Charles A. Whittaker & Renan Oliveira Corrêa & Chiara Alquati & Yixin Lu & Guodong Tie & Dikshant Pradhan & Gizem Calibasi-Kocal & Lui, 2024. "Short-term post-fast refeeding enhances intestinal stemness via polyamines," Nature, Nature, vol. 633(8031), pages 895-904, September.
    • Handle: RePEc:nat:nature:v:633:y:2024:i:8031:d:10.1038_s41586-024-07840-z
    DOI: 10.1038/s41586-024-07840-z
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