4.4 Article

Whole-body insulin resistance and energy expenditure indices, serum lipids, and skeletal muscle metabolome in a state of lipoprotein lipase overexpression

Journal

METABOLOMICS
Volume 17, Issue 3, Pages -

Publisher

SPRINGER
DOI: 10.1007/s11306-021-01777-4

Keywords

Obesity; Insulin resistance; Diabetes; Skeletal muscle; Metabolism; Metabolomics

Funding

  1. Japanese Ministry of Education Culture, Sports, Science and Technology [23700835, 25350889]
  2. Grants-in-Aid for Scientific Research [25350889, 23700835] Funding Source: KAKEN

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The study found that overexpression of LPL in rabbit skeletal muscle leads to increased activities of TCA cycle and proteinogenic amino acid metabolism pathways, contributing to the anti-obesity/anti-diabetes features. Additionally, compared to the control group, in transgenic rabbits, serum lipids and insulin resistance index were significantly lower, while total energy expenditure was higher.
IntroductionOverexpression of lipoprotein lipase (LPL) protects against high-fat-diet (HFD)-induced obesity and insulin resistance in transgenic rabbits; however, the molecular mechanisms remain unclear. Skeletal muscle is a major organ responsible for insulin-stimulated glucose uptake and energy expenditure.ObjectivesThe main purpose of the current study was to examine the effects of the overexpression of LPL on the skeletal muscle metabolomic profiles to test our hypothesis that the mitochondrial oxidative metabolism would be activated in the skeletal muscle of LPL transgenic rabbits and that the higher mitochondrial oxidative metabolism activity would confer better phenotypic metabolic outcomes.MethodsUnder a HFD, insulin resistance index was measured using the intravenous glucose tolerance test, and total energy expenditure (TEE) was measured by doubly-labeled water in control and LPL transgenic rabbits (n=12, each group). Serum lipids, such as triglycerides and free fatty acid, were also measured. The skeletal muscle metabolite profile was analyzed using capillary electrophoresis time-of flight mass spectrometry in the two groups (n=9, each group). A metabolite set enrichment analysis (MSEA) with muscle metabolites and a false discovery rate q<0.2 was performed to identify significantly different metabolic pathways between the 2 groups.ResultsThe triglycerides and free fatty acid levels and insulin resistance index were lower, whereas the TEE was higher in the LPL transgenic rabbits than in the control rabbits. Among 165 metabolites detected, the levels of 37 muscle metabolites were significantly different between the 2 groups after false discovery rate correction (q<0.2). The MSEA revealed that the TCA cycle and proteinogenic amino acid metabolism pathways were significantly different between the 2 groups (P<0.05). In the MSEA, all four selected metabolites for the TCA cycle (2-oxoglutaric acid, citric acid, malic acid, fumaric acid), as well as eight selected metabolites for proteinogenic amino acid metabolism (asparagine, proline, methionine, phenylalanine, histidine, arginine, leucine, isoleucine) were consistently increased in the transgenic rabbits compared with control rabbits, suggesting that these two metabolic pathways were activated in the transgenic rabbits. Some of the selected metabolites, such as citric acid and methionine, were significantly associated with serum lipids and insulin resistance (P<0.05).ConclusionThe current results suggest that the overexpression of LPL may lead to increased activities of TCA cycle and proteinogenic amino acid metabolism pathways in the skeletal muscle, and these enhancements may play an important role in the biological mechanisms underlying the anti-obesity/anti-diabetes features of LPL overexpression.

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