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Saturated Fat Versus Monounsaturated Fat and Insulin Action

Not Applicable
Completed
Conditions
Obesity
Interventions
Dietary Supplement: High palmitate or high oleate diet.
Registration Number
NCT01612234
Lead Sponsor
University of Vermont
Brief Summary

High intakes of saturated fat are associated with diabetes. Our work has shown that the two most common fatty acids in the North American diet, palmitic acid (saturated fat) and oleic acid (monounsaturated fat) are metabolized differently and have opposite effects on fat burning. The proposed study will examine biochemical and molecular mechanisms for how a high saturated fat diet versus a low saturated fat/high monounsaturated fat diet alters the action of the hormone, insulin, in skeletal muscle.

Detailed Description

Palmitic acid (PA), impairs insulin sensitivity in skeletal muscle, and replacing PA in the diet with oleic acid (OA), a monounsaturated fatty acid (FA), may be beneficial. The first objective of this project is to understand the effects on lipid metabolism and skeletal muscle lipid composition, insulin signaling, and inflammatory signaling of two common variations in FA composition of the diet: (1) The typical intake of North America where PA and OA are present in equal proportions (HI PA diet). (2) The Mediterranean FA composition in which PA is much lower and OA much higher (HI OA diet). PA may induce insulin resistance in skeletal muscle cells via its accumulation in lipids within muscle cells and via activation of inflammatory signaling. The second objective of this project is to assess the hypothesis that a high intake of PA will down-regulate its own one-carbon (initial) oxidation, leading to increased inflammatory signaling and decreased insulin signaling. However, there is literature evidence that FA may induce defects in insulin signaling, if FA are not completely oxidized; therefore, the third objective is to assess the hypotheses that a high PA diet may decrease complete oxidation of FA and possibly accelerate initial FA oxidation. A double-masked, cross-over trial of the effects of a high PA diet versus a high OA/low PA diet in 16 overweight or obese subjects and 16 lean subjects (aged 18 - 40 yr) will be conducted to investigate the following Specific Aims:

1. To test the hypothesis that increased intake of PA will cause a decreased rate of \[1-13C\]-PA oxidation and will be associated with: (a) increased inflammatory signaling, within the muscle and by peripheral blood mononuclear cells; (b) Decreased insulin signaling as characterized by decreased, whole body, peripheral insulin sensitivity (euglycemic/hyperinsulinemic clamp) and, in skeletal muscle, decreased phospho-AKT (Ser473), increased phospho-IRS-1 (Ser636/Ser639), decreased tyrosine phosphorylation of IRS-1, and decreased membrane content of GLUT4.

2. To test the hypothesis that increased intake of PA will cause less complete mitochondrial fatty acid oxidation, perhaps associated with dysfunction of the TCA cycle and increased reactive oxygen species formation. This hypothesis will be tested by measuring whole body and muscle (upper limb) relative rates of oxidation of \[13-13C\]-PA and \[1-13C\]-PA and by determining the serum profile of acylcarnitines, the urine concentrations of organic acids, and muscle concentrations of protein carbonyls.

3. To test the hypothesis that a high PA diet will lead to less complete oxidation of FA, less insulin signaling in skeletal muscle in response to a test meal, less whole body insulin sensitivity, increased dysfunction of the TCA cycle, and greater reactive oxygen species formation compared to the results obtained in obese versus lean humans.

Recruitment & Eligibility

Status
COMPLETED
Sex
All
Target Recruitment
70
Inclusion Criteria
  • healthy young adults,
  • 18 - 40 years of age
Read More
Exclusion Criteria
  • regular aerobic exercise training,
  • dyslipidemia, and
  • type 2 diabetes or insulin resistance
Read More

Study & Design

Study Type
INTERVENTIONAL
Study Design
CROSSOVER
Arm && Interventions
GroupInterventionDescription
high palmitate or high oleate dietHigh palmitate or high oleate diet.This is a solid food diet in which vegetable oils are used to create a dietary fat composition similar to the average American/Western diet in which palmitic and oleic acid are ingested in approximately equal amounts (high palmitate diet) or a composition similar to the Mediterranean Diet (low palmitate, high oleate, using hazelnut oil as the source of fat). There are no interventions other than the diet itself.
High palmitate or high oleate diet.High palmitate or high oleate diet.This is a solid food diet in which vegetable oils are used to create a dietary fat composition similar to the average American/Western diet in which palmitic and oleic acid are ingested in approximately equal amounts (high palmitate diet) or a composition similar to the Mediterranean Diet (low palmitate, high oleate, using hazelnut oil as the source of fat). There are no interventions other than the diet itself.
Primary Outcome Measures
NameTimeMethod
Whether increased palmitate balance (as measured by intake and the rate of [1-13C]-PA oxidation) causes increased insulin resistance and increased inflammatory signaling by peripheral blood mononuclear cellsup to 4 yr

Insulin sensitivity, inflammatory signaling, palmitate balance, and incomplete oxidation of palmitate in lean and obese young adults.

Secondary Outcome Measures
NameTimeMethod
We will examine the link between palmitate intake and balance and oxidative stress measured using muscle and peripheral blood markers of oxidative stress and antioxidant responses.up to 4 yr

activation of c-Jun N-terminal kinase (JNK) and heme oxygenase 1 in skeletal muscle in response to the diets.

Trial Locations

Locations (1)

The Unversity of Vermont Clinical Research Center at Fletcher Allen Health Care

🇺🇸

Burlington, Vermont, United States

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