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Variation in the PPAR alpha gene is associated with altered function in vitro and plasma lipid concentrations in Type II diabetic subjects

Flavell, DM; Torra, IP; Jamshidi, Y; Evans, D; Diamond, JR; Elkeles, RS; ... Humphries, SE; + view all (2000) Variation in the PPAR alpha gene is associated with altered function in vitro and plasma lipid concentrations in Type II diabetic subjects. DIABETOLOGIA , 43 (5) 673 - 680.

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Abstract

Aims/hypothesis. Peroxisome proliferator activated receptor alpha (PPAR alpha) regulates genes involved in lipid metabolism, haemostasis and inflammation, in response to fatty acids and fibrates, making it a candidate gene for risk of dyslipidaemia, atherosclerosis and coronary artery disease. Plasma non-esterified fatty acids art: increased in subjects with Type II (non-insulin-dependent) diabetes mellitus, suggesting that PPAR alpha could link Type II diabetes and dyslipidaemia, and affect response to fibrates. This has been investigated in association studies in healthy and diabetic subjects and in vitro studies.Methods. The human PPAR alpha gene was isolated and screened for variation by single strand conformation polymorphism analysis. Genotypes were determined for 129 Type II diabetic subjects and 2508 healthy men. The association with plasma lipid concentrations was examined. The function of the V162 variant was examined in co-transfection assays.Results. We identified two polymorphisms, one in intron 3 and a missense mutation, leucine 162 to valine, in the DNA binding domain. In Type II diabetic patients, V162 allele carriers had higher total cholesterol, HDL cholesterol and apoAI whereas intron 3 rare allele carriers had higher apoAI concentrations. By contrast, no effect was observed in healthy rare allele carriers. In vitro, the V162 variant showed greater transactivation of a reporter gene construct.Conclusion/interpretation. Naturally occurring variation alters PPAR alpha function, influencing plasma lipid concentrations in Type II diabetic patients but not healthy people. This demonstrates that PPAR alpha is a link between diabetes and dyslipidaemia, and so could influence the risk of coronary artery disease, the greatest cause of morbidity and mortality in Type II diabetes.

Type:Article
Title:Variation in the PPAR alpha gene is associated with altered function in vitro and plasma lipid concentrations in Type II diabetic subjects
Keywords:polymorphism, type II diabetes, nuclear receptors, PPAR alpha, dyslipidaemia, PROLIFERATOR-ACTIVATED RECEPTOR, CORONARY HEART-DISEASE, APOLIPOPROTEIN-A-I, RISK-FACTORS, LIPOPROTEIN METABOLISM, OPPOSITE REGULATION, TISSUE DISTRIBUTION, DEFICIENT MICE, DNA-BINDING, EXPRESSION
UCL classification:UCL > School of Life and Medical Sciences > Faculty of Medical Sciences > Medicine (Division of) > Metabolism and Experimental Therapeutics
UCL > School of Life and Medical Sciences > Faculty of Population Health Sciences > Institute of Cardiovascular Science

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