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Dietary fructose improves intestinal cell survival and nutrient absorption

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  • Samuel R. Taylor

    (Weill Cornell Medicine
    Weill Cornell Medicine
    Weill Cornell–Rockefeller–Sloan Kettering Tri-Institutional MD–PhD program
    Weill Cornell Medicine)

  • Shakti Ramsamooj

    (Weill Cornell Medicine
    Weill Cornell Medicine)

  • Roger J. Liang

    (Weill Cornell Medicine
    Weill Cornell Medicine)

  • Alyna Katti

    (Weill Cornell Medicine
    Weill Cornell Medicine)

  • Rita Pozovskiy

    (Weill Cornell Medicine
    Weill Cornell Medicine)

  • Neil Vasan

    (Weill Cornell Medicine
    Memorial Sloan Kettering Cancer Center)

  • Seo-Kyoung Hwang

    (Weill Cornell Medicine
    Weill Cornell Medicine)

  • Navid Nahiyaan

    (Weill Cornell Medicine)

  • Nancy J. Francoeur

    (Icahn School of Medicine at Mount Sinai)

  • Emma M. Schatoff

    (Weill Cornell Medicine
    Weill Cornell Medicine
    Weill Cornell–Rockefeller–Sloan Kettering Tri-Institutional MD–PhD program)

  • Jared L. Johnson

    (Weill Cornell Medicine)

  • Manish A. Shah

    (Weill Cornell Medicine)

  • Andrew J. Dannenberg

    (Weill Cornell Medicine)

  • Robert P. Sebra

    (Icahn School of Medicine at Mount Sinai
    Sema4)

  • Lukas E. Dow

    (Weill Cornell Medicine)

  • Lewis C. Cantley

    (Weill Cornell Medicine)

  • Kyu Y. Rhee

    (Weill Cornell Medicine)

  • Marcus D. Goncalves

    (Weill Cornell Medicine
    Weill Cornell Medicine)

Abstract

Fructose consumption is linked to the rising incidence of obesity and cancer, which are two of the leading causes of morbidity and mortality globally1,2. Dietary fructose metabolism begins at the epithelium of the small intestine, where fructose is transported by glucose transporter type 5 (GLUT5; encoded by SLC2A5) and phosphorylated by ketohexokinase to form fructose 1-phosphate, which accumulates to high levels in the cell3,4. Although this pathway has been implicated in obesity and tumour promotion, the exact mechanism that drives these pathologies in the intestine remains unclear. Here we show that dietary fructose improves the survival of intestinal cells and increases intestinal villus length in several mouse models. The increase in villus length expands the surface area of the gut and increases nutrient absorption and adiposity in mice that are fed a high-fat diet. In hypoxic intestinal cells, fructose 1-phosphate inhibits the M2 isoform of pyruvate kinase to promote cell survival5–7. Genetic ablation of ketohexokinase or stimulation of pyruvate kinase prevents villus elongation and abolishes the nutrient absorption and tumour growth that are induced by feeding mice with high-fructose corn syrup. The ability of fructose to promote cell survival through an allosteric metabolite thus provides additional insights into the excess adiposity generated by a Western diet, and a compelling explanation for the promotion of tumour growth by high-fructose corn syrup.

Suggested Citation

  • Samuel R. Taylor & Shakti Ramsamooj & Roger J. Liang & Alyna Katti & Rita Pozovskiy & Neil Vasan & Seo-Kyoung Hwang & Navid Nahiyaan & Nancy J. Francoeur & Emma M. Schatoff & Jared L. Johnson & Manish, 2021. "Dietary fructose improves intestinal cell survival and nutrient absorption," Nature, Nature, vol. 597(7875), pages 263-267, September.
    • Handle: RePEc:nat:nature:v:597:y:2021:i:7875:d:10.1038_s41586-021-03827-2
    DOI: 10.1038/s41586-021-03827-2
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    Cited by:

    1. Ozren Stojanović & Jordi Altirriba & Dorothée Rigo & Martina Spiljar & Emilien Evrard & Benedek Roska & Salvatore Fabbiano & Nicola Zamboni & Pierre Maechler & Françoise Rohner-Jeanrenaud & Mirko Traj, 2021. "Dietary excess regulates absorption and surface of gut epithelium through intestinal PPARα," Nature Communications, Nature, vol. 12(1), pages 1-15, December.
    2. Yanling Zhang & Yafei Cao & Xia Wu & Zhenghui Chen & Bowen Chen & Anhui Wang & Yanshen Guo & Wei Chen & Ruolan Xue & Zihua Liu & Yuanpei Li & Tian Li & Ruiqin Cheng & Ning Zhou & Jing Li & Yuan Liu & , 2024. "Thermal proteome profiling reveals fructose-1,6-bisphosphate as a phosphate donor to activate phosphoglycerate mutase 1," Nature Communications, Nature, vol. 15(1), pages 1-17, December.

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