Systemic proteome adaptions to 7-day complete caloric restriction in humans

Research output: Contribution to journalJournal articleResearchpeer-review

Standard

Systemic proteome adaptions to 7-day complete caloric restriction in humans. / Pietzner, Maik; Uluvar, Burulça; Kolnes, Kristoffer J.; Jeppesen, Per B.; Frivold, S. Victoria; Skattebo, Øyvind; Johansen, Egil I.; Skålhegg, Bjørn S.; Wojtaszewski, Jørgen F.P.; Kolnes, Anders J.; Yeo, Giles S.H.; O’Rahilly, Stephen; Jensen, Jørgen; Langenberg, Claudia.

In: Nature Metabolism, Vol. 6, 2024, p. 764–777.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Pietzner, M, Uluvar, B, Kolnes, KJ, Jeppesen, PB, Frivold, SV, Skattebo, Ø, Johansen, EI, Skålhegg, BS, Wojtaszewski, JFP, Kolnes, AJ, Yeo, GSH, O’Rahilly, S, Jensen, J & Langenberg, C 2024, 'Systemic proteome adaptions to 7-day complete caloric restriction in humans', Nature Metabolism, vol. 6, pp. 764–777. https://doi.org/10.1038/s42255-024-01008-9

APA

Pietzner, M., Uluvar, B., Kolnes, K. J., Jeppesen, P. B., Frivold, S. V., Skattebo, Ø., Johansen, E. I., Skålhegg, B. S., Wojtaszewski, J. F. P., Kolnes, A. J., Yeo, G. S. H., O’Rahilly, S., Jensen, J., & Langenberg, C. (2024). Systemic proteome adaptions to 7-day complete caloric restriction in humans. Nature Metabolism, 6, 764–777. https://doi.org/10.1038/s42255-024-01008-9

Vancouver

Pietzner M, Uluvar B, Kolnes KJ, Jeppesen PB, Frivold SV, Skattebo Ø et al. Systemic proteome adaptions to 7-day complete caloric restriction in humans. Nature Metabolism. 2024;6:764–777. https://doi.org/10.1038/s42255-024-01008-9

Author

Pietzner, Maik ; Uluvar, Burulça ; Kolnes, Kristoffer J. ; Jeppesen, Per B. ; Frivold, S. Victoria ; Skattebo, Øyvind ; Johansen, Egil I. ; Skålhegg, Bjørn S. ; Wojtaszewski, Jørgen F.P. ; Kolnes, Anders J. ; Yeo, Giles S.H. ; O’Rahilly, Stephen ; Jensen, Jørgen ; Langenberg, Claudia. / Systemic proteome adaptions to 7-day complete caloric restriction in humans. In: Nature Metabolism. 2024 ; Vol. 6. pp. 764–777.

Bibtex

@article{f90ee3cce8c44648ab91b6922e4cd2a9,
title = "Systemic proteome adaptions to 7-day complete caloric restriction in humans",
abstract = "Surviving long periods without food has shaped human evolution. In ancient and modern societies, prolonged fasting was/is practiced by billions of people globally for religious purposes, used to treat diseases such as epilepsy, and recently gained popularity as weight loss intervention, but we still have a very limited understanding of the systemic adaptions in humans to extreme caloric restriction of different durations. Here we show that a 7-day water-only fast leads to an average weight loss of 5.7 kg (±0.8 kg) among 12 volunteers (5 women, 7 men). We demonstrate nine distinct proteomic response profiles, with systemic changes evident only after 3 days of complete calorie restriction based on in-depth characterization of the temporal trajectories of ~3,000 plasma proteins measured before, daily during, and after fasting. The multi-organ response to complete caloric restriction shows distinct effects of fasting duration and weight loss and is remarkably conserved across volunteers with >1,000 significantly responding proteins. The fasting signature is strongly enriched for extracellular matrix proteins from various body sites, demonstrating profound non-metabolic adaptions, including extreme changes in the brain-specific extracellular matrix protein tenascin-R. Using proteogenomic approaches, we estimate the health consequences for 212 proteins that change during fasting across ~500 outcomes and identified putative beneficial (SWAP70 and rheumatoid arthritis or HYOU1 and heart disease), as well as adverse effects. Our results advance our understanding of prolonged fasting in humans beyond a merely energy-centric adaptions towards a systemic response that can inform targeted therapeutic modulation.",
author = "Maik Pietzner and Burul{\c c}a Uluvar and Kolnes, {Kristoffer J.} and Jeppesen, {Per B.} and Frivold, {S. Victoria} and {\O}yvind Skattebo and Johansen, {Egil I.} and Sk{\aa}lhegg, {Bj{\o}rn S.} and Wojtaszewski, {J{\o}rgen F.P.} and Kolnes, {Anders J.} and Yeo, {Giles S.H.} and Stephen O{\textquoteright}Rahilly and J{\o}rgen Jensen and Claudia Langenberg",
note = "Publisher Copyright: {\textcopyright} The Author(s), under exclusive licence to Springer Nature Limited 2024.",
year = "2024",
doi = "10.1038/s42255-024-01008-9",
language = "English",
volume = "6",
pages = "764–777",
journal = "Nature Metabolism",
issn = "2522-5812",
publisher = "Springer",

}

RIS

TY - JOUR

T1 - Systemic proteome adaptions to 7-day complete caloric restriction in humans

AU - Pietzner, Maik

AU - Uluvar, Burulça

AU - Kolnes, Kristoffer J.

AU - Jeppesen, Per B.

AU - Frivold, S. Victoria

AU - Skattebo, Øyvind

AU - Johansen, Egil I.

AU - Skålhegg, Bjørn S.

AU - Wojtaszewski, Jørgen F.P.

AU - Kolnes, Anders J.

AU - Yeo, Giles S.H.

AU - O’Rahilly, Stephen

AU - Jensen, Jørgen

AU - Langenberg, Claudia

N1 - Publisher Copyright: © The Author(s), under exclusive licence to Springer Nature Limited 2024.

PY - 2024

Y1 - 2024

N2 - Surviving long periods without food has shaped human evolution. In ancient and modern societies, prolonged fasting was/is practiced by billions of people globally for religious purposes, used to treat diseases such as epilepsy, and recently gained popularity as weight loss intervention, but we still have a very limited understanding of the systemic adaptions in humans to extreme caloric restriction of different durations. Here we show that a 7-day water-only fast leads to an average weight loss of 5.7 kg (±0.8 kg) among 12 volunteers (5 women, 7 men). We demonstrate nine distinct proteomic response profiles, with systemic changes evident only after 3 days of complete calorie restriction based on in-depth characterization of the temporal trajectories of ~3,000 plasma proteins measured before, daily during, and after fasting. The multi-organ response to complete caloric restriction shows distinct effects of fasting duration and weight loss and is remarkably conserved across volunteers with >1,000 significantly responding proteins. The fasting signature is strongly enriched for extracellular matrix proteins from various body sites, demonstrating profound non-metabolic adaptions, including extreme changes in the brain-specific extracellular matrix protein tenascin-R. Using proteogenomic approaches, we estimate the health consequences for 212 proteins that change during fasting across ~500 outcomes and identified putative beneficial (SWAP70 and rheumatoid arthritis or HYOU1 and heart disease), as well as adverse effects. Our results advance our understanding of prolonged fasting in humans beyond a merely energy-centric adaptions towards a systemic response that can inform targeted therapeutic modulation.

AB - Surviving long periods without food has shaped human evolution. In ancient and modern societies, prolonged fasting was/is practiced by billions of people globally for religious purposes, used to treat diseases such as epilepsy, and recently gained popularity as weight loss intervention, but we still have a very limited understanding of the systemic adaptions in humans to extreme caloric restriction of different durations. Here we show that a 7-day water-only fast leads to an average weight loss of 5.7 kg (±0.8 kg) among 12 volunteers (5 women, 7 men). We demonstrate nine distinct proteomic response profiles, with systemic changes evident only after 3 days of complete calorie restriction based on in-depth characterization of the temporal trajectories of ~3,000 plasma proteins measured before, daily during, and after fasting. The multi-organ response to complete caloric restriction shows distinct effects of fasting duration and weight loss and is remarkably conserved across volunteers with >1,000 significantly responding proteins. The fasting signature is strongly enriched for extracellular matrix proteins from various body sites, demonstrating profound non-metabolic adaptions, including extreme changes in the brain-specific extracellular matrix protein tenascin-R. Using proteogenomic approaches, we estimate the health consequences for 212 proteins that change during fasting across ~500 outcomes and identified putative beneficial (SWAP70 and rheumatoid arthritis or HYOU1 and heart disease), as well as adverse effects. Our results advance our understanding of prolonged fasting in humans beyond a merely energy-centric adaptions towards a systemic response that can inform targeted therapeutic modulation.

U2 - 10.1038/s42255-024-01008-9

DO - 10.1038/s42255-024-01008-9

M3 - Journal article

C2 - 38429390

AN - SCOPUS:85186408388

VL - 6

SP - 764

EP - 777

JO - Nature Metabolism

JF - Nature Metabolism

SN - 2522-5812

ER -

ID: 387147474