PUFA: Effects of Polyunsaturated Fatty Acids on Intestinal Lipid Metabolism in Insulin-resistant Men
Study Details
Study Description
Brief Summary
The overaccumulation of apolipoprotein (apo)B-48-containing lipoproteins of intestinal origin observed in patients with insulin-resistance is now thought to be attributable to both elevated intestinal production and reduced clearance of these lipoproteins. Substantial evidence exists indicating that elevated plasma levels of these lipoproteins are associated with increased cardiovascular disease (CVD) risk. Therefore, reduction of atherogenic plasma TRL levels of intestinal origin appears to be crucial to improve CVD risk associated with insulin-resistance. In this regard, there is some evidence that the clinical recommendation to replace dietary saturated fatty acids (SFAs) by n-6 polyunsaturated fatty acids (PUFAs) reduces CVD risk in the general population. Although the beneficial impact of n-6 PUFAs on CVD risk has been related primarily to favorable changes in plasma LDL-cholesterol levels, recent data suggest that chronic n-6 PUFA consumption may also exert beneficial effects on CVD risk by reducing postprandial lipemia. The impact of substituting SFAs by n-6 PUFAs on postprandial lipid response may be of even greater significance in dyslipidemic patients with insulin-resistance among whom intestinal triglyceride-rich lipoproteins (TRLs) represent a large proportion of the atherogenic lipoproteins. The general objective of the proposed research is to investigate how dietary n-6 PUFAs in place of SFAs modify intestinal lipoprotein metabolism in men with dyslipidemia associated with insulin-resistance. The investigators hypothesize that the intestinal secretion of apoB-48-containing lipoproteins will be lower following a diet rich in n-6 PUFAs than after consuming a diet rich in SFAs. The investigators also hypothesize that substitution of SFAs by n-6 PUFAs will be associated with significant alterations in expression of key genes and proteins involved in intestinal lipoprotein metabolism.
| Condition or Disease | Intervention/Treatment | Phase |
|---|---|---|
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N/A |
Study Design
Arms and Interventions
| Arm | Intervention/Treatment |
|---|---|
| Experimental: Polyunsaturated fatty acids diet During 4 weeks, subjects eat a diet high in polyunsaturated fatty acids (percent of total caloric intake: 15.0% from proteins; 50.0% from carbohydrates; 35.0% from fat: 6.0% from saturated fat; 14.4% from monounsaturated fat; 12.6% from n-6 polyunsaturated fat). |
Other: Polyunsaturated fatty acids diet
During 4 weeks, subjects eat a diet high in polyunsaturated fatty acids (percent of total caloric intake: 15.0% from proteins; 50.0% from carbohydrates; 35.0% from fat: 6.0% from saturated fat; 14.4% from monounsaturated fat; 12.6% from n-6 polyunsaturated fat).
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| Experimental: Saturated fatty acids diet During 4 weeks, subjects eat a diet high in polyunsaturated fatty acids (percent of total caloric intake: 15.0% from proteins; 50.0% from carbohydrates; 35.0% from fat: 13.4% from saturated fat; 15.3% from monounsaturated fat; 4.0% from n-6 polyunsaturated fat). |
Other: Saturated fatty acids diet
During 4 weeks, subjects eat a diet high in polyunsaturated fatty acids (percent of total caloric intake: 15.0% from proteins; 50.0% from carbohydrates; 35.0% from fat: 13.4% from saturated fat; 15.3% from monounsaturated fat; 4.0% from n-6 polyunsaturated fat).
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Outcome Measures
Primary Outcome Measures
- Change in TRL apolipoprotein B48 (apoB-48) production rate. [At week 4 and week 12 (at the end of the two 4-weeks diets).]
Secondary Outcome Measures
- Changes in duodenal expression of genes that regulate intestinal lipid absorption. [At week 4 and week 12 (at the end of the two 4-weeks diets).]
Genes that regulate intestinal lipid absorption that will be measured are Niemann-Pick C1-like 1 (NPC1L1), Adenosine triphosphate(ATP)-binding cassette transporters (ABCG5/8), Fatty Acid Binding Protein (FABP), Sterol Regulatory Element Binding Protein (SREBP-1c).
- Changes in duodenal expression of genes that regulate intestinal lipid synthesis. [At week 4 and week 12 (at the end of the two 4-weeks diets).]
Genes that regulate intestinal lipid synthesis that will be measured are Acyl-Coenzyme A(CoA):diacylglycerol acyltransferase (DGAT), Acyl-CoA:cholesterol O-acyltransferase 2 (ACAT2) and 3-hydroxy-methylglutaryl-CoA reductase (HMG CoA reductase).
- Change in synthesis of apoB-48 containing lipoproteins (Microsomal triglyceride transfer protein (MTP), apoB-48). [At week 4 and week 12 (at the end of the two 4-weeks diets).]
Eligibility Criteria
Criteria
Inclusion Criteria:
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Men aged between 18-60 years
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Waist circumference > 102 cm
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HDL-cholesterol < 1.1 mmol/L
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Triglycerides > 1.7 mmol/L
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Fasting blood glucose > 6.1 mmol/L
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Normal blood pressure (<130/85)
Exclusion Criteria:
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Women
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Men < 18 or > 60 years
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Smokers (> 1 cigarette/day)
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Body weight variation > 10% during the last 6 months prior to the study baseline
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Subjects with a previous history of cardiovascular disease
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Subjects with type 2 diabetes
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Subjects with a monogenic dyslipidemia
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Subjects on hypertension medications or medications known to affect lipoprotein metabolism or the integrity of gastrointestinal mucosa
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Subjects with endocrine or gastrointestinal disorders
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History of alcohol or drug abuse within the past 2 years
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Subjects who are in a situation or have any condition that, in the opinion of the investigator, may interfere with optimal participation in the study.
Contacts and Locations
Locations
| Site | City | State | Country | Postal Code | |
|---|---|---|---|---|---|
| 1 | Institute of Nutrition and Functional Foods (INAF) | Quebec | Canada | G1V 0A6 |
Sponsors and Collaborators
- Laval University
- Canadian Institutes of Health Research (CIHR)
Investigators
- Principal Investigator: Patrick Couture, MD,FRCP,PhD, Laval University
Study Documents (Full-Text)
None provided.More Information
Publications
None provided.- INAF-PUFA