Acute Effects of an Oral Fat Load on Skeletal Muscle and Hepatic Insulin Sensitivity

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A dysregulation of lipid metabolism with increased levels of free fatty acids (FFA) represents one key mechanism in the pathogenesis of insulin resistance, which contributes to the development of type 2 diabetes (T2D). In most cases, dyslipidemia is related to obesity and the metabolic syndrome. Not...

A dysregulation of lipid metabolism with increased levels of free fatty acids (FFA) represents one key mechanism in the pathogenesis of insulin resistance, which contributes to the development of type 2 diabetes (T2D). In most cases, dyslipidemia is related to obesity and the metabolic syndrome. Not only skeletal muscle glucose uptake, but also hepatic glucose fluxes are altered in insulin resistant states. In obese and T2D subjects, rates of gluconeogenesis (GNG) are increased, but in obese normoglycemic subjects endogenous glucose production (EGP) remains constant because of downregulation of glycogenolysis (GL). However, in T2D subjects, both GNG and GL are elevated, contributing to fasting and postprandial hyperglycemia. Therefore, elevated GNG rates may represent an early event in the pathophysiology of insulin resistance and T2D. Preliminary studies of our institute show that intravenous lipid infusion with subsequent elevation of FFA results in increased GNG rates without alteration of EGP in lean, non-diabetic subjects. In another recent study we investigated the effects of an oral fat load on hepatic insulin sensitivity. As expected, we did not find any alterations in EGP; however, rates of GNG and GL have not been assessed. The aim of this study is to analyze the effects of an oral fat load with transiently elevated levels of circulating lipids on hepatic glucose fluxes, especially GNG and GL, to elucidate the role of dietary fat in the induction of insulin resistance in healthy humans. In this randomized, controlled cross-over study, effects of oral palm oil and canola oil ingestion will be investigated in young, healthy lean subjects. Hepatic glucose fluxes will be assessed by two independent methods, in vivo magnet resonance spectroscopy (MRS) and the deuterated water/acetaminophen method, which also allows for the determination of glycogen cycling rates. Furthermore, hepatic phosphorus metabolites and liver fat content will be monitored by MRS.

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