Temporal dynamics of the multi-omic response to endurance exercise training

Manuscript Writing Group; Senior Leadership; Co-corresponding Authors; MoTrPAC Study Group; Bioinformatics Center; Biospecimens Repository; Administrative Coordinating Center; Data Management, Analysis, and Quality Control Center; Exercise Intervention Core; NIH; Preclinical Animal Study Sites; Chemical Analysis Sites; Clinical Sites; MoTrPAC Study Group; Primary authors; Lead Analysts; Lead Data Generators; Analysts; Animal Study Leadership; Manuscript Writing Group Leads

doi:10.1038/s41586-023-06877-w

Temporal dynamics of the multi-omic response to endurance exercise training

Manuscript Writing Group, Senior Leadership, Co-corresponding Authors, MoTrPAC Study Group, Bioinformatics Center, Biospecimens Repository, Administrative Coordinating Center, Data Management, Analysis, and Quality Control Center, Exercise Intervention Core, NIH, Preclinical Animal Study Sites, Chemical Analysis Sites, Clinical Sites, MoTrPAC Study Group, Primary authors, Lead Analysts, Lead Data Generators, Analysts, Animal Study Leadership, Manuscript Writing Group Leads

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

46 Scopus citations

Abstract

Regular exercise promotes whole-body health and prevents disease, but the underlying molecular mechanisms are incompletely understood^1–3. Here, the Molecular Transducers of Physical Activity Consortium⁴ profiled the temporal transcriptome, proteome, metabolome, lipidome, phosphoproteome, acetylproteome, ubiquitylproteome, epigenome and immunome in whole blood, plasma and 18 solid tissues in male and female Rattus norvegicus over eight weeks of endurance exercise training. The resulting data compendium encompasses 9,466 assays across 19 tissues, 25 molecular platforms and 4 training time points. Thousands of shared and tissue-specific molecular alterations were identified, with sex differences found in multiple tissues. Temporal multi-omic and multi-tissue analyses revealed expansive biological insights into the adaptive responses to endurance training, including widespread regulation of immune, metabolic, stress response and mitochondrial pathways. Many changes were relevant to human health, including non-alcoholic fatty liver disease, inflammatory bowel disease, cardiovascular health and tissue injury and recovery. The data and analyses presented in this study will serve as valuable resources for understanding and exploring the multi-tissue molecular effects of endurance training and are provided in a public repository (https://motrpac-data.org/).

Original language	English (US)
Pages (from-to)	174-183
Number of pages	10
Journal	Nature
Volume	629
Issue number	8010
DOIs	https://doi.org/10.1038/s41586-023-06877-w
State	Published - May 2 2024

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Manuscript Writing Group, Senior Leadership, Co-corresponding Authors, MoTrPAC Study Group, Bioinformatics Center, Biospecimens Repository, Administrative Coordinating Center, Data Management, Analysis, and Quality Control Center, Exercise Intervention Core, NIH, Preclinical Animal Study Sites, Chemical Analysis Sites, Clinical Sites, MoTrPAC Study Group, Primary authors, Lead Analysts, Lead Data Generators, Analysts, Animal Study Leadership, & Manuscript Writing Group Leads (2024). Temporal dynamics of the multi-omic response to endurance exercise training. Nature, 629(8010), 174-183. https://doi.org/10.1038/s41586-023-06877-w

Manuscript Writing Group, Senior Leadership, Co-corresponding Authors, MoTrPAC Study Group, Bioinformatics Center, Biospecimens Repository, Administrative Coordinating Center, Data Management, Analysis, and Quality Control Center, Exercise Intervention Core, NIH, Preclinical Animal Study Sites, Chemical Analysis Sites, Clinical Sites, MoTrPAC Study Group, Primary authors, Lead Analysts, Lead Data Generators, Analysts, Animal Study Leadership & Manuscript Writing Group Leads 2024, 'Temporal dynamics of the multi-omic response to endurance exercise training', Nature, vol. 629, no. 8010, pp. 174-183. https://doi.org/10.1038/s41586-023-06877-w

@article{d1ef13a8e50e4924a37d4824cfce2335,

title = "Temporal dynamics of the multi-omic response to endurance exercise training",

abstract = "Regular exercise promotes whole-body health and prevents disease, but the underlying molecular mechanisms are incompletely understood1–3. Here, the Molecular Transducers of Physical Activity Consortium4 profiled the temporal transcriptome, proteome, metabolome, lipidome, phosphoproteome, acetylproteome, ubiquitylproteome, epigenome and immunome in whole blood, plasma and 18 solid tissues in male and female Rattus norvegicus over eight weeks of endurance exercise training. The resulting data compendium encompasses 9,466 assays across 19 tissues, 25 molecular platforms and 4 training time points. Thousands of shared and tissue-specific molecular alterations were identified, with sex differences found in multiple tissues. Temporal multi-omic and multi-tissue analyses revealed expansive biological insights into the adaptive responses to endurance training, including widespread regulation of immune, metabolic, stress response and mitochondrial pathways. Many changes were relevant to human health, including non-alcoholic fatty liver disease, inflammatory bowel disease, cardiovascular health and tissue injury and recovery. The data and analyses presented in this study will serve as valuable resources for understanding and exploring the multi-tissue molecular effects of endurance training and are provided in a public repository (https://motrpac-data.org/).",

author = "{Manuscript Writing Group} and {Senior Leadership} and {Co-corresponding Authors} and {MoTrPAC Study Group} and {Bioinformatics Center} and {Biospecimens Repository} and {Administrative Coordinating Center} and {Data Management, Analysis, and Quality Control Center} and {Exercise Intervention Core} and NIH and {Preclinical Animal Study Sites} and {Chemical Analysis Sites} and {Clinical Sites} and {MoTrPAC Study Group} and {Primary authors} and {Lead Analysts} and {Lead Data Generators} and Analysts and {Animal Study Leadership} and {Manuscript Writing Group Leads} and David Amar and Gay, {Nicole R.} and Jean-Beltran, {Pierre M.} and Dam Bae and Surendra Dasari and Courtney Dennis and Evans, {Charles R.} and Gaul, {David A.} and Olga Ilkayeva and Ivanova, {Anna A.} and Kachman, {Maureen T.} and Hasmik Keshishian and Lanza, {Ian R.} and Lira, {Ana C.} and Muehlbauer, {Michael J.} and Nair, {Venugopalan D.} and Piehowski, {Paul D.} and Rooney, {Jessica L.} and Smith, {Kevin S.} and Stowe, {Cynthia L.} and Bingqing Zhao and Clark, {Natalie M.} and David Jimenez-Morales and Lindholm, {Malene E.} and Many, {Gina M.} and Sanford, {James A.} and Smith, {Gregory R.} and Vetr, {Nikolai G.} and Tiantian Zhang and {Almagro Armenteros}, {Jose J.} and Julian Avila-Pacheco and Nasim Bararpour and Yongchao Ge and Zhenxin Hou and Shruti Marwaha and Presby, {David M.} and {Natarajan Raja}, Archana and Savage, {Evan M.} and Alec Steep and Yifei Sun and Si Wu and Jimmy Zhen and Bodine, {Sue C.} and Esser, {Karyn A.} and Goodyear, {Laurie J.} and Simon Schenk and Montgomery, {Stephen B.} and Nicolas Musi and Rasmussen, {Blake B.} and Elena Volpi",

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AU - Administrative Coordinating Center

AU - Data Management, Analysis, and Quality Control Center

AU - Exercise Intervention Core

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AU - Chemical Analysis Sites

AU - Clinical Sites

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AU - Gaul, David A.

AU - Ilkayeva, Olga

AU - Ivanova, Anna A.

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AU - Nair, Venugopalan D.

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AU - Lindholm, Malene E.

AU - Many, Gina M.

AU - Sanford, James A.

AU - Smith, Gregory R.

AU - Vetr, Nikolai G.

AU - Zhang, Tiantian

AU - Almagro Armenteros, Jose J.

AU - Avila-Pacheco, Julian

AU - Bararpour, Nasim

AU - Ge, Yongchao

AU - Hou, Zhenxin

AU - Marwaha, Shruti

AU - Presby, David M.

AU - Natarajan Raja, Archana

AU - Savage, Evan M.

AU - Steep, Alec

AU - Sun, Yifei

AU - Wu, Si

AU - Zhen, Jimmy

AU - Bodine, Sue C.

AU - Esser, Karyn A.

AU - Goodyear, Laurie J.

AU - Schenk, Simon

AU - Montgomery, Stephen B.

AU - Musi, Nicolas

AU - Rasmussen, Blake B.

AU - Volpi, Elena

PY - 2024/5/2

Y1 - 2024/5/2

N2 - Regular exercise promotes whole-body health and prevents disease, but the underlying molecular mechanisms are incompletely understood1–3. Here, the Molecular Transducers of Physical Activity Consortium4 profiled the temporal transcriptome, proteome, metabolome, lipidome, phosphoproteome, acetylproteome, ubiquitylproteome, epigenome and immunome in whole blood, plasma and 18 solid tissues in male and female Rattus norvegicus over eight weeks of endurance exercise training. The resulting data compendium encompasses 9,466 assays across 19 tissues, 25 molecular platforms and 4 training time points. Thousands of shared and tissue-specific molecular alterations were identified, with sex differences found in multiple tissues. Temporal multi-omic and multi-tissue analyses revealed expansive biological insights into the adaptive responses to endurance training, including widespread regulation of immune, metabolic, stress response and mitochondrial pathways. Many changes were relevant to human health, including non-alcoholic fatty liver disease, inflammatory bowel disease, cardiovascular health and tissue injury and recovery. The data and analyses presented in this study will serve as valuable resources for understanding and exploring the multi-tissue molecular effects of endurance training and are provided in a public repository (https://motrpac-data.org/).

AB - Regular exercise promotes whole-body health and prevents disease, but the underlying molecular mechanisms are incompletely understood1–3. Here, the Molecular Transducers of Physical Activity Consortium4 profiled the temporal transcriptome, proteome, metabolome, lipidome, phosphoproteome, acetylproteome, ubiquitylproteome, epigenome and immunome in whole blood, plasma and 18 solid tissues in male and female Rattus norvegicus over eight weeks of endurance exercise training. The resulting data compendium encompasses 9,466 assays across 19 tissues, 25 molecular platforms and 4 training time points. Thousands of shared and tissue-specific molecular alterations were identified, with sex differences found in multiple tissues. Temporal multi-omic and multi-tissue analyses revealed expansive biological insights into the adaptive responses to endurance training, including widespread regulation of immune, metabolic, stress response and mitochondrial pathways. Many changes were relevant to human health, including non-alcoholic fatty liver disease, inflammatory bowel disease, cardiovascular health and tissue injury and recovery. The data and analyses presented in this study will serve as valuable resources for understanding and exploring the multi-tissue molecular effects of endurance training and are provided in a public repository (https://motrpac-data.org/).

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VL - 629

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JO - Nature

JF - Nature

IS - 8010

ER -

Temporal dynamics of the multi-omic response to endurance exercise training

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