Organ aging signatures in the plasma proteome track health and disease

Hamilton Se Hwee Oh; Jarod Rutledge; Daniel Nachun; Róbert Pálovics; Olamide Abiose; Patricia Moran-Losada; Divya Channappa; Deniz Yagmur Urey; Kate Kim; Yun Ju Sung; Lihua Wang; Jigyasha Timsina; Dan Western; Menghan Liu; Pat Kohlfeld; John Budde; Edward N. Wilson; Yann Guen; Taylor M. Maurer; Michael Haney; Andrew C. Yang; Zihuai He; Michael D. Greicius; Katrin I. Andreasson; Sanish Sathyan; Erica F. Weiss; Sofiya Milman; Nir Barzilai; Carlos Cruchaga; Anthony D. Wagner; Elizabeth Mormino; Benoit Lehallier; Victor W. Henderson; Frank M. Longo; Stephen B. Montgomery; Tony Wyss-Coray

doi:10.1038/s41586-023-06802-1

Organ aging signatures in the plasma proteome track health and disease

Hamilton Se Hwee Oh, Jarod Rutledge, Daniel Nachun, Róbert Pálovics, Olamide Abiose, Patricia Moran-Losada, Divya Channappa, Deniz Yagmur Urey, Kate Kim, Yun Ju Sung, Lihua Wang, Jigyasha Timsina, Dan Western, Menghan Liu, Pat Kohlfeld, John Budde, Edward N. Wilson, Yann Guen, Taylor M. Maurer, Michael HaneyAndrew C. Yang, Zihuai He, Michael D. Greicius, Katrin I. Andreasson, Sanish Sathyan, Erica F. Weiss, Sofiya Milman, Nir Barzilai, Carlos Cruchaga, Anthony D. Wagner, Elizabeth Mormino, Benoit Lehallier, Victor W. Henderson, Frank M. Longo, Stephen B. Montgomery, Tony Wyss-Coray

Research output: Contribution to journal › Article › peer-review

20 Scopus citations

Abstract

Animal studies show aging varies between individuals as well as between organs within an individual^1–4, but whether this is true in humans and its effect on age-related diseases is unknown. We utilized levels of human blood plasma proteins originating from specific organs to measure organ-specific aging differences in living individuals. Using machine learning models, we analysed aging in 11 major organs and estimated organ age reproducibly in five independent cohorts encompassing 5,676 adults across the human lifespan. We discovered nearly 20% of the population show strongly accelerated age in one organ and 1.7% are multi-organ agers. Accelerated organ aging confers 20–50% higher mortality risk, and organ-specific diseases relate to faster aging of those organs. We find individuals with accelerated heart aging have a 250% increased heart failure risk and accelerated brain and vascular aging predict Alzheimer’s disease (AD) progression independently from and as strongly as plasma pTau-181 (ref. ⁵), the current best blood-based biomarker for AD. Our models link vascular calcification, extracellular matrix alterations and synaptic protein shedding to early cognitive decline. We introduce a simple and interpretable method to study organ aging using plasma proteomics data, predicting diseases and aging effects.

Original language	English (US)
Pages (from-to)	164-172
Number of pages	9
Journal	Nature
Volume	624
Issue number	7990
DOIs	https://doi.org/10.1038/s41586-023-06802-1
State	Published - Dec 7 2023

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UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1038/s41586-023-06802-1

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Oh, H. S. H., Rutledge, J., Nachun, D., Pálovics, R., Abiose, O., Moran-Losada, P., Channappa, D., Urey, D. Y., Kim, K., Sung, Y. J., Wang, L., Timsina, J., Western, D., Liu, M., Kohlfeld, P., Budde, J., Wilson, E. N., Guen, Y., Maurer, T. M., ... Wyss-Coray, T. (2023). Organ aging signatures in the plasma proteome track health and disease. Nature, 624(7990), 164-172. https://doi.org/10.1038/s41586-023-06802-1

Oh, HSH, Rutledge, J, Nachun, D, Pálovics, R, Abiose, O, Moran-Losada, P, Channappa, D, Urey, DY, Kim, K, Sung, YJ, Wang, L, Timsina, J, Western, D, Liu, M, Kohlfeld, P, Budde, J, Wilson, EN, Guen, Y, Maurer, TM, Haney, M, Yang, AC, He, Z, Greicius, MD, Andreasson, KI, Sathyan, S , Weiss, EF , Milman, S , Barzilai, N, Cruchaga, C, Wagner, AD, Mormino, E, Lehallier, B, Henderson, VW, Longo, FM, Montgomery, SB & Wyss-Coray, T 2023, 'Organ aging signatures in the plasma proteome track health and disease', Nature, vol. 624, no. 7990, pp. 164-172. https://doi.org/10.1038/s41586-023-06802-1

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title = "Organ aging signatures in the plasma proteome track health and disease",

abstract = "Animal studies show aging varies between individuals as well as between organs within an individual1–4, but whether this is true in humans and its effect on age-related diseases is unknown. We utilized levels of human blood plasma proteins originating from specific organs to measure organ-specific aging differences in living individuals. Using machine learning models, we analysed aging in 11 major organs and estimated organ age reproducibly in five independent cohorts encompassing 5,676 adults across the human lifespan. We discovered nearly 20% of the population show strongly accelerated age in one organ and 1.7% are multi-organ agers. Accelerated organ aging confers 20–50% higher mortality risk, and organ-specific diseases relate to faster aging of those organs. We find individuals with accelerated heart aging have a 250% increased heart failure risk and accelerated brain and vascular aging predict Alzheimer{\textquoteright}s disease (AD) progression independently from and as strongly as plasma pTau-181 (ref. 5), the current best blood-based biomarker for AD. Our models link vascular calcification, extracellular matrix alterations and synaptic protein shedding to early cognitive decline. We introduce a simple and interpretable method to study organ aging using plasma proteomics data, predicting diseases and aging effects.",

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doi = "10.1038/s41586-023-06802-1",

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T1 - Organ aging signatures in the plasma proteome track health and disease

AU - Oh, Hamilton Se Hwee

AU - Rutledge, Jarod

AU - Nachun, Daniel

AU - Pálovics, Róbert

AU - Abiose, Olamide

AU - Moran-Losada, Patricia

AU - Channappa, Divya

AU - Urey, Deniz Yagmur

AU - Kim, Kate

AU - Sung, Yun Ju

AU - Wang, Lihua

AU - Timsina, Jigyasha

AU - Western, Dan

AU - Liu, Menghan

AU - Kohlfeld, Pat

AU - Budde, John

AU - Wilson, Edward N.

AU - Guen, Yann

AU - Maurer, Taylor M.

AU - Haney, Michael

AU - Yang, Andrew C.

AU - He, Zihuai

AU - Greicius, Michael D.

AU - Andreasson, Katrin I.

AU - Sathyan, Sanish

AU - Weiss, Erica F.

AU - Milman, Sofiya

AU - Barzilai, Nir

AU - Cruchaga, Carlos

AU - Wagner, Anthony D.

AU - Mormino, Elizabeth

AU - Lehallier, Benoit

AU - Henderson, Victor W.

AU - Longo, Frank M.

AU - Montgomery, Stephen B.

AU - Wyss-Coray, Tony

PY - 2023/12/7

Y1 - 2023/12/7

N2 - Animal studies show aging varies between individuals as well as between organs within an individual1–4, but whether this is true in humans and its effect on age-related diseases is unknown. We utilized levels of human blood plasma proteins originating from specific organs to measure organ-specific aging differences in living individuals. Using machine learning models, we analysed aging in 11 major organs and estimated organ age reproducibly in five independent cohorts encompassing 5,676 adults across the human lifespan. We discovered nearly 20% of the population show strongly accelerated age in one organ and 1.7% are multi-organ agers. Accelerated organ aging confers 20–50% higher mortality risk, and organ-specific diseases relate to faster aging of those organs. We find individuals with accelerated heart aging have a 250% increased heart failure risk and accelerated brain and vascular aging predict Alzheimer’s disease (AD) progression independently from and as strongly as plasma pTau-181 (ref. 5), the current best blood-based biomarker for AD. Our models link vascular calcification, extracellular matrix alterations and synaptic protein shedding to early cognitive decline. We introduce a simple and interpretable method to study organ aging using plasma proteomics data, predicting diseases and aging effects.

AB - Animal studies show aging varies between individuals as well as between organs within an individual1–4, but whether this is true in humans and its effect on age-related diseases is unknown. We utilized levels of human blood plasma proteins originating from specific organs to measure organ-specific aging differences in living individuals. Using machine learning models, we analysed aging in 11 major organs and estimated organ age reproducibly in five independent cohorts encompassing 5,676 adults across the human lifespan. We discovered nearly 20% of the population show strongly accelerated age in one organ and 1.7% are multi-organ agers. Accelerated organ aging confers 20–50% higher mortality risk, and organ-specific diseases relate to faster aging of those organs. We find individuals with accelerated heart aging have a 250% increased heart failure risk and accelerated brain and vascular aging predict Alzheimer’s disease (AD) progression independently from and as strongly as plasma pTau-181 (ref. 5), the current best blood-based biomarker for AD. Our models link vascular calcification, extracellular matrix alterations and synaptic protein shedding to early cognitive decline. We introduce a simple and interpretable method to study organ aging using plasma proteomics data, predicting diseases and aging effects.

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DO - 10.1038/s41586-023-06802-1

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C2 - 38057571

AN - SCOPUS:85178923345

SN - 0028-0836

VL - 624

SP - 164

EP - 172

JO - Nature

JF - Nature

IS - 7990

ER -

Organ aging signatures in the plasma proteome track health and disease

Abstract

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UN SDGs

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