Hoeks 2011 PLoS One
Hoeks J, de Wilde J, Hulshof MF, van den Berg SA, Schaart G, van Dijk KW, Smit E, Mariman EC (2011) High fat diet-induced changes in mouse muscle mitochondrial phospholipids do not impair mitochondrial respiration despite insulin resistance. PLoS One 6:e27274. |
Hoeks J, de Wilde J, Hulshof MF, van den Berg SA, Schaart G, van Dijk KW, Smit E, Mariman EC (2011) PLoS One
Abstract: BACKGROUND: Type 2 diabetes mellitus and muscle insulin resistance have been associated with reduced capacity of skeletal muscle mitochondria, possibly as a result of increased intake of dietary fat. Here, we examined the hypothesis that a prolonged high-fat diet consumption (HFD) increases the saturation of muscle mitochondrial membrane phospholipids causing impaired mitochondrial oxidative capacity and possibly insulin resistance.
METHODOLOGY: C57BL/6J mice were fed an 8-week or 20-week low fat diet (10 kcal%; LFD) or HFD (45 kcal%). Skeletal muscle mitochondria were isolated and fatty acid (FA) composition of skeletal muscle mitochondrial phospholipids was analyzed by thin-layer chromatography followed by GC. High-resolution respirometry was used to assess oxidation of pyruvate and fatty acids by mitochondria. Insulin sensitivity was estimated by HOMA-IR.
PRINCIPAL FINDINGS: At 8 weeks, mono-unsaturated FA (16βΆ1n7, 18βΆ1n7 and 18βΆ1n9) were decreased (-4.0%, p<0.001), whereas saturated FA (16βΆ0) were increased (+3.2%, p<0.001) in phospholipids of HFD vs. LFD mitochondria. Interestingly, 20 weeks of HFD descreased mono-unsaturated FA while n-6 poly-unsaturated FA (18βΆ2n6, 20βΆ4n6, 22βΆ5n6) showed a pronounced increase (+4.0%, p<0.001). Despite increased saturation of muscle mitochondrial phospholipids after the 8-week HFD, mitochondrial oxidation of both pyruvate and fatty acids were similar between LFD and HFD mice. After 20 weeks of HFD, the increase in n-6 poly-unsaturated FA was accompanied by enhanced maximal capacity of the electron transport chain (+49%, p = 0.002) and a tendency for increased ADP-stimulated respiration, but only when fuelled by a lipid-derived substrate. Insulin sensitivity in HFD mice was reduced at both 8 and 20 weeks.
CONCLUSIONS/INTERPRETATION: Our findings do not support the concept that prolonged HF feeding leads to increased saturation of skeletal muscle mitochondrial phospholipids resulting in a decrease in mitochondrial fat oxidative capacity and (muscle) insulin resistance. β’ Keywords: Mitochondrial phospholipids, high-fat diet, muscle insulin resistance, Type 2 diabetes mellitus
β’ O2k-Network Lab: NL_Maastricht_Schrauwen P
Labels:
Pathology: Diabetes
Organism: Mouse Tissue;cell: Skeletal muscle Preparation: Isolated mitochondria
Regulation: Fatty acid Coupling state: OXPHOS
HRR: Oxygraph-2k