The association between the val/ala-55 polymorphism of the uncoupling protein 2 gene and exercise efficiency

Energy expenditure may partly be determined by genetic variations in uncoupling proteins. We have previously found an increased physical activity but a similar 24-h energy expenditure (EE) in subjects with the val/val-55 UCP2 genotype compared to those with the ala/ala genotype which indicates that...

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Published in	International Journal of Obesity Vol. 25; no. 4; pp. 467 - 471
Main Authors	Buemann, B, Schierning, B, Toubro, S, Bibby, BM, Sørensen, T, Dalgaard, L, Pedersen, O, Astrup, A
Format	Journal Article
Language	English
Published	Basingstoke Nature Publishing 01.04.2001 Nature Publishing Group
Subjects	Adult Alanine Biological and medical sciences Body fat Body mass index Calorimetry Calorimetry, Indirect Energy Energy Metabolism - genetics Exercise Exercise - physiology Exercise Test Female Fundamental and applied biological sciences. Psychology Genes Genetic diversity Genotype Genotype & phenotype Genotypes Homozygote Humans Intermediate and energetic metabolism Linkage Disequilibrium Male Metabolism Metabolisms and neurohumoral controls Nutrition Obesity - etiology Obesity - genetics Oxygen Consumption Physical fitness Polymorphism Polymorphism, Genetic Proteins Protons Saccharomyces cerevisiae Proteins Trans-Activators - genetics Trans-Activators - metabolism Valine Vertebrates: anatomy and physiology, studies on body, several organs or systems Denmark Human Energy metabolism Uncoupling protein Gene Indirect calorimetry Energetic cost Adult Genetic determinism Polymorphism
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ISSN	0307-0565 1476-5497
DOI	10.1038/sj.ijo.0801564

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Abstract	Energy expenditure may partly be determined by genetic variations in uncoupling proteins. We have previously found an increased physical activity but a similar 24-h energy expenditure (EE) in subjects with the val/val-55 UCP2 genotype compared to those with the ala/ala genotype which indicates that the val-55 allele is statistically associated with a higher metabolic efficiency. EE during bicycling was determined by indirect calorimetry at three different loads (30, 40 and 60% of VO2max in eight subjects with the val/val-55 genotype (35+/-6 y weight=76.8+/-13.6 kg, VO2max=2.79+/-0.71 l/min) and eight subjects with the ala/ala-55 genotype (37+/-3 y, weight=78.3+/-16.5 kg, VO2max=2.66+/-0.41 l/min). Incremental exercise efficiency across the three different work levels was higher in the val/val (25.3%, c.i. 24.2-26.4%) than in the ala/ala (23.6%, c.i. 22.5-24.7%) genotype P<0.05. Gross exercise efficiency at 40% VO2max was higher in the val/val (15.3+/-0.6%) than in the ala/ala (13.5+/-0.4%) group. As the val/ala-55 polymorphism is located in a domain of the protein without any known function, the different exercise efficiency between the two genotypes most likely reflects a linkage disequilibrium with a functionally significant polymorphism in UCP2 or in the neighbouring UCP3 gene. The study suggests that variations in the UCP genes may affect not only basal metabolic rate but also influence energy costs of exercise.
AbstractList	Energy expenditure may partly be determined by genetic variations in uncoupling proteins. We have previously found an increased physical activity but a similar 24-h energy expenditure (EE) in subjects with the val/val-55 UCP2 genotype compared to those with the ala/ala genotype which indicates that the val-55 allele is statistically associated with a higher metabolic efficiency. EE during bicycling was determined by indirect calorimetry at three different loads (30, 40 and 60% of VO2max in eight subjects with the val/val-55 genotype (35+/-6 y weight=76.8+/-13.6 kg, VO2max=2.79+/-0.71 l/min) and eight subjects with the ala/ala-55 genotype (37+/-3 y, weight=78.3+/-16.5 kg, VO2max=2.66+/-0.41 l/min). Incremental exercise efficiency across the three different work levels was higher in the val/val (25.3%, c.i. 24.2-26.4%) than in the ala/ala (23.6%, c.i. 22.5-24.7%) genotype P<0.05. Gross exercise efficiency at 40% VO2max was higher in the val/val (15.3+/-0.6%) than in the ala/ala (13.5+/-0.4%) group. As the val/ala-55 polymorphism is located in a domain of the protein without any known function, the different exercise efficiency between the two genotypes most likely reflects a linkage disequilibrium with a functionally significant polymorphism in UCP2 or in the neighbouring UCP3 gene. The study suggests that variations in the UCP genes may affect not only basal metabolic rate but also influence energy costs of exercise. BACKGROUND:: Energy expenditure may partly be determined by genetic variations in uncoupling proteins. We have previously found an increased physical activity but a similar 24-h energy expenditure (EE) in subjects with the val/val-55 UCP2 genotype compared to those with the ala/ala genotype which indicates that the val-55 allele is statistically associated with a higher metabolic efficiency. DESIGN:: EE during bicycling was determined by indirect calorimetry at three different loads (30, 40 and 60% of VO2max in eight subjects with the val/val-55 genotype (35±6 y weight=76.8±13.6 kg, VO2max =2.79±0.71 l/min) and eight subjects with the ala/ala-55 genotype (37±3 y, weight=78.3±16.5 kg, VO2max =2.66±0.41 l/min). RESULTS:: Incremental exercise efficiency across the three different work levels was higher in the val/val (25.3%, c.i. 24.2-26.4%) than in the ala/ala (23.6%, c.i. 22.5-24.7%) genotype P<0.05. Gross exercise efficiency at 40% VO2max was higher in the val/val (15.3±0.6%) than in the ala/ala (13.5±0.4%) group. CONCLUSION:: As the val/ala-55 polymorphism is located in a domain of the protein without any known function, the different exercise efficiency between the two genotypes most likely reflects a linkage disequilibrium with a functionally significant polymorphism in UCP2 or in the neighbouring UCP3 gene. The study suggests that variations in the UCP genes may affect not only basal metabolic rate but also influence energy costs of exercise. INTERNATIONAL JOURNAL OF OBESITY: (2001) 25, 467-471 Energy expenditure may partly be determined by genetic variations in uncoupling proteins. We have previously found an increased physical activity but a similar 24-h energy expenditure (EE) in subjects with the val/val-55 UCP2 genotype compared to those with the ala/ala genotype which indicates that the val-55 allele is statistically associated with a higher metabolic efficiency. EE during bicycling was determined by indirect calorimetry at three different loads (30, 40 and 60% of VO sub(2max) in eight subjects with the val/val-55 genotype (35 plus or minus 6y weight = 76.84 plus or minus 13.6 kg, VO sub(2max) = 2.79 plus or minus 0.71 l/min) and eight subjects with the ala/ala-55 genotype (37 plus or minus 3y, weight = 78.3 plus or minus 16.5 kg, VO sub(2max) = 2.66 plus or minus 0.41 l/min). Incremental exercise efficiency across the three different work levels was higher in the val/val (25.3%, c.i. 24.2-26.4%) than in the ala/ala (23.6%, c.i. 22.5-24.7%) genotype P < 0.05. Gross exercise efficiency at 40% VO sub(2max) was higher in the val/val (15.3 plus or minus 0.6%) than in the ala/ala (13.5 plus or minus 0.4%) group. As the val/ala-55 polymorphism is located in a domain of the protein without any known function, the different exercise efficiency between the two genotypes most likely reflects a linkage disequilibrium with a functionally significant polymorphism in UCP2 or in the neighbouring UCP3 gene. The study suggests that variations in the UCP genes may affect not only basal metabolic rate but also influence energy costs of exercise.
Author	Buemann, B Sørensen, T Pedersen, O Astrup, A Bibby, BM Dalgaard, L Toubro, S Schierning, B
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Snippet	Energy expenditure may partly be determined by genetic variations in uncoupling proteins. We have previously found an increased physical activity but a similar... BACKGROUND:: Energy expenditure may partly be determined by genetic variations in uncoupling proteins. We have previously found an increased physical activity...
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SubjectTerms	Adult Alanine Biological and medical sciences Body fat Body mass index Calorimetry Calorimetry, Indirect Energy Energy Metabolism - genetics Exercise Exercise - physiology Exercise Test Female Fundamental and applied biological sciences. Psychology Genes Genetic diversity Genotype Genotype & phenotype Genotypes Homozygote Humans Intermediate and energetic metabolism Linkage Disequilibrium Male Metabolism Metabolisms and neurohumoral controls Nutrition Obesity - etiology Obesity - genetics Oxygen Consumption Physical fitness Polymorphism Polymorphism, Genetic Proteins Protons Saccharomyces cerevisiae Proteins Trans-Activators - genetics Trans-Activators - metabolism Valine Vertebrates: anatomy and physiology, studies on body, several organs or systems
Title	The association between the val/ala-55 polymorphism of the uncoupling protein 2 gene and exercise efficiency
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