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Supporting Materials 1, exercise metabolite excursions, annotated metabolites, 7-23-19.pdf (52.68 MB)
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Supporting Materials 2, exercise metabolite excursions, non-annotated (unknown identity) metabolites, 2-7-19.pdf (8.05 MB)
DATASET
Supporting Materials 3, Correlation Stats, Pre & Post, All Timepoints, 2-16-19 FOR SUBMISSION xls.xls (12.08 MB)
DATASET
Supporting Materials 4, CDS_SA0002 Analysis Results, 2-16-19 FOR SUBMISSION xls.xls (693 kB)
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Data from: Exercise plasma metabolomics and xenometabolomics in obese, sedentary, insulin-resistant women: impact of a fitness and weight loss intervention

dataset
posted on 2024-02-13, 13:49 authored by Sean H. Adams

Insulin resistance has wide-ranging effects on metabolism but there are knowledge gaps regarding the tissue origins of systemic metabolite patterns, and how patterns are altered by fitness and metabolic health. To address these questions, plasma metabolite patterns were determined every 5 min during exercise (30 min, ~45% of V̇O2peak, ~63 W) and recovery in overnight-fasted sedentary, obese, insulin resistant women under controlled conditions of diet and physical activity. We hypothesized that improved fitness and insulin sensitivity following a ~14 wk training and weight loss intervention would lead to fixed workload plasma metabolomics signatures reflective of metabolic health and muscle metabolism. Pattern analysis over the first 15 min of exercise—regardless of pre- vs. post-intervention status—highlighted anticipated increases in fatty acid tissue uptake and oxidation (e.g., reduced long-chain fatty acids), diminution of non-oxidative fates of glucose (e.g., lowered sorbitol-pathway metabolites and glycerol-3-galactoside [possible glycerolipid synthesis metabolite]), and enhanced tissue amino acid use (e.g., drops in amino acids; modest increase in urea). A novel observation was that exercise significantly increased several xenometabolites (“non-self” molecules, from microbes or foods), including benzoic acid/salicylic acid/salicylaldehyde, hexadecanol/octadecanol/dodecanol, and chlorogenic acid. In addition, many non-annotated metabolites changed with exercise. Although exercise itself strongly impacted the global metabolome, there were surprisingly few intervention-associated differences despite marked improvements in insulin sensitivity, fitness, and adiposity. These results, and previously-reported plasma acylcarnitine profiles, support the principle that most metabolic changes during sub-maximal aerobic exercise are closely tethered to absolute ATP turnover rate (workload), regardless of fitness or metabolic health status.

Supporting Materials include graphs of blood patterns of metabolites in adult women during a sub-maximal exercise bout and recovery period, and primary data in spreadsheet format on model performance, exercise and recovery, and correlation statistics for metabolites.

Journal information -- Am J Physiol, Endo & Metabolism, Exercise plasma metabolomics and xenometabolomics in obese, sedentary, insulin-resistant women: impact of a fitness and weight loss intervention.


Resources in this dataset:

  • Resource Title: Supporting Materials 1, exercise plasma metabolite excursions, annotated metabolites.

    File Name: Supporting Materials 1, exercise metabolite excursions, annotated metabolites, 7-23-19.pdf

    Resource Description: Blood plasma concentrations of known, annotated metabolites in adult women during exercise at ~65W for 30 min, then 20 min cool-down

    Resource Software Recommended: Adobe Acrobat,url: https://acrobat.adobe.com/us/en/acrobat/pdf-reader.html


  • Resource Title: Supporting Materials 2, exercise plasma metabolite excursions, non-annotated (unknown identity) metabolites.

    File Name: Supporting Materials 2, exercise metabolite excursions, non-annotated (unknown identity) metabolites, 2-7-19.pdf

    Resource Description: Blood plasma concentrations of non-annotated (as yet to be identified) metabolites in adult women during exercise at ~65W for 30 min, then 20 min cool-down

    Resource Software Recommended: Adobe Acrobat,url: https://acrobat.adobe.com/us/en/acrobat/pdf-reader.html


  • Resource Title: Supporting Materials 3, Correlation Stats, Pre & Post exercise plasma metabolite patterns in adults, All Timepoints.

    File Name: Supporting Materials 3, Correlation Stats, Pre & Post, All Timepoints, 2-16-19 FOR SUBMISSION xls.xls

    Resource Description: Correlation data for plasma metabolites using data across 30 min of sub-maximal exercise (~65W), then 20 min cool-down, in adult women

    Resource Software Recommended: Microsoft Excel,url: https://products.office.com/en-us/excel


  • Resource Title: Supporting Materials 4, CDS_SA0002 Analysis Results.

    File Name: Supporting Materials 4, CDS_SA0002 Analysis Results, 2-16-19 FOR SUBMISSION xls.xls

    Resource Description: Plasma metabolomics data from sub-maximal (~65W) exercise in adult women

    Resource Software Recommended: Microsoft Excel,url: https://products.office.com/en-us/excel

Funding

USDA-ARS: 5306-51530-016-00D

USDA-ARS: 5306-51530-019-00

USDA-ARS: 6026-51000-010-05S

National Institutes of Health: U24DK097154

National Institute of Diabetes and Digestive and Kidney Diseases: R01DK078328

History

Data contact name

Adams, Sean H.

Data contact email

shadams@ucdavis.edu

Publisher

Ag Data Commons

Intended use

Metabolomics data from adult humans may be used to compare to other similar results in the literature or posted to public databases. In addition, the data can be used to uncover patterns not previously recognized in the literature.

Frequency

  • continual

Theme

  • Not specified

ISO Topic Category

  • health

National Agricultural Library Thesaurus terms

metabolomics; metabolites; blood plasma; exercise; insulin; insulin resistance; diabetes; women's health; obesity; weight loss; weight control programs; metabolism; women; diet; muscles; oxidation; long chain fatty acids; glucose; amino acids; urea; microorganisms; foods; benzoic acid; salicylic acid; hydroxybenzaldehyde; chlorogenic acid; metabolome; adiposity; adenosine triphosphate; health status; graphs; blood; adults; model validation; statistics; nutritional intervention

OMB Bureau Code

  • 005:18 - Agricultural Research Service

OMB Program Code

  • 005:040 - National Research

ARS National Program Number

  • 107

Pending citation

  • No

Public Access Level

  • Public

Preferred dataset citation

Adams, Sean H. (2019). Data from: Exercise plasma metabolomics and xenometabolomics in obese, sedentary, insulin-resistant women: impact of a fitness and weight loss intervention. Ag Data Commons. https://doi.org/10.15482/USDA.ADC/1504422

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