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Metabolomic analysis of insulin resistance across different mouse strains and diets.

Publication ,  Journal Article
Stöckli, J; Fisher-Wellman, KH; Chaudhuri, R; Zeng, X-Y; Fazakerley, DJ; Meoli, CC; Thomas, KC; Hoffman, NJ; Mangiafico, SP; Xirouchaki, CE ...
Published in: J Biol Chem
November 24, 2017

Insulin resistance is a major risk factor for many diseases. However, its underlying mechanism remains unclear in part because it is triggered by a complex relationship between multiple factors, including genes and the environment. Here, we used metabolomics combined with computational methods to identify factors that classified insulin resistance across individual mice derived from three different mouse strains fed two different diets. Three inbred ILSXISS strains were fed high-fat or chow diets and subjected to metabolic phenotyping and metabolomics analysis of skeletal muscle. There was significant metabolic heterogeneity between strains, diets, and individual animals. Distinct metabolites were changed with insulin resistance, diet, and between strains. Computational analysis revealed 113 metabolites that were correlated with metabolic phenotypes. Using these 113 metabolites, combined with machine learning to segregate mice based on insulin sensitivity, we identified C22:1-CoA, C2-carnitine, and C16-ceramide as the best classifiers. Strikingly, when these three metabolites were combined into one signature, they classified mice based on insulin sensitivity more accurately than each metabolite on its own or other published metabolic signatures. Furthermore, C22:1-CoA was 2.3-fold higher in insulin-resistant mice and correlated significantly with insulin resistance. We have identified a metabolomic signature composed of three functionally unrelated metabolites that accurately predicts whole-body insulin sensitivity across three mouse strains. These data indicate the power of simultaneous analysis of individual, genetic, and environmental variance in mice for identifying novel factors that accurately predict metabolic phenotypes like whole-body insulin sensitivity.

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Published In

J Biol Chem

DOI

EISSN

1083-351X

Publication Date

November 24, 2017

Volume

292

Issue

47

Start / End Page

19135 / 19145

Location

United States

Related Subject Headings

  • Mice, Inbred Strains
  • Mice
  • Metabolomics
  • Metabolome
  • Male
  • Insulin Resistance
  • Diet
  • Computational Biology
  • Biochemistry & Molecular Biology
  • Animals
 

Citation

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Stöckli, J., Fisher-Wellman, K. H., Chaudhuri, R., Zeng, X.-Y., Fazakerley, D. J., Meoli, C. C., … James, D. E. (2017). Metabolomic analysis of insulin resistance across different mouse strains and diets. J Biol Chem, 292(47), 19135–19145. https://doi.org/10.1074/jbc.M117.818351
Stöckli, Jacqueline, Kelsey H. Fisher-Wellman, Rima Chaudhuri, Xiao-Yi Zeng, Daniel J. Fazakerley, Christopher C. Meoli, Kristen C. Thomas, et al. “Metabolomic analysis of insulin resistance across different mouse strains and diets.J Biol Chem 292, no. 47 (November 24, 2017): 19135–45. https://doi.org/10.1074/jbc.M117.818351.
Stöckli J, Fisher-Wellman KH, Chaudhuri R, Zeng X-Y, Fazakerley DJ, Meoli CC, et al. Metabolomic analysis of insulin resistance across different mouse strains and diets. J Biol Chem. 2017 Nov 24;292(47):19135–45.
Stöckli, Jacqueline, et al. “Metabolomic analysis of insulin resistance across different mouse strains and diets.J Biol Chem, vol. 292, no. 47, Nov. 2017, pp. 19135–45. Pubmed, doi:10.1074/jbc.M117.818351.
Stöckli J, Fisher-Wellman KH, Chaudhuri R, Zeng X-Y, Fazakerley DJ, Meoli CC, Thomas KC, Hoffman NJ, Mangiafico SP, Xirouchaki CE, Yang C-H, Ilkayeva O, Wong K, Cooney GJ, Andrikopoulos S, Muoio DM, James DE. Metabolomic analysis of insulin resistance across different mouse strains and diets. J Biol Chem. 2017 Nov 24;292(47):19135–19145.

Published In

J Biol Chem

DOI

EISSN

1083-351X

Publication Date

November 24, 2017

Volume

292

Issue

47

Start / End Page

19135 / 19145

Location

United States

Related Subject Headings

  • Mice, Inbred Strains
  • Mice
  • Metabolomics
  • Metabolome
  • Male
  • Insulin Resistance
  • Diet
  • Computational Biology
  • Biochemistry & Molecular Biology
  • Animals