The combined impact of metabolic gene polymorphisms on elite endurance athlete status and related phenotypes

Ahmetov, Ildus I.; Williams, Alun G.; Popov, D. V.; Lyubaeva, Ekaterina V.; Hakimullina, Albina M.; Fedotovskaya, Olga; Mozhayskaya, Irina A.; Виноградова, О. Л.; Astratenkova, Irina V.; Montgomery, Hugh; Рогозкин, В. А.

doi:10.1007/s00439-009-0728-4

Cited by 108 publications

(112 citation statements)

References 61 publications

(97 reference statements)

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“…There were no differences in the G894T allele frequencies in athletes stratified by the level of competitiveness (elite versus sub-elite) regardless of the athletes' status (power, "mixed" and endurance). Ahmetov et al [38] suggested that the difference in allelic frequencies between athletes within the same event category (for example strength/power sports), but with different levels of achievements may be explained by selection pressure. Specifically, the athletes possessing a "desired" allele or its combination are more likely to become elite.…”

Section: Sub-elite); N -The Number Of Athletesmentioning

confidence: 99%

Endothelial nitric oxide synthase g894t (rs1799983) gene polymorphism in polish athletes

et al. 2013

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The NOS3 gene has been associated with athletic endurance performance and elite power athletic status. With respect to NOS3 G894T and its relation to athletic performance or status, results across various studies have not been consistent. Therefore, the lack of consistency among previous studies prompted us to design a case-control study in a Polish Caucasian population to examine the relationship between the NOS3 G894T polymorphism and athletes' status, i.e. type and intensity of exercise performed (poweroriented, “mixed” power/endurance activity, endurance-oriented) and the possible association between the G894T variant and athletic performance. The case-control study was performed in a group of 360 Polish athletes (cases) of the highest nationally competitive standard (male n=156 and female n=67) and 191 unrelated, sedentary control subjects. The G894T genotype and allele distributions differed significantly between power-oriented (P=0.009, P=0.003), “mixed” (P=0.021, P=0.009), endurance (P=0.043, P=0.014) athletes when compared to control subjects (P values for genotypes and alleles, respectively). There were no significant differences between elite and sub-elite athletes in any group. The over-representation of the GG genotype and G allele in all athletes suggests that the G894 allele may favour all types of sports, however, the strongest predisposition was seen among power-oriented athletes.

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Section: Sub-elite); N -The Number Of Athletesmentioning

confidence: 99%

Endothelial nitric oxide synthase g894t (rs1799983) gene polymorphism in polish athletes

et al. 2013

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“…Specifically, for men with high numbers (≥9) of endurance alleles (n = 26) compared with those with low numbers (≤8) of endurance alleles (n = 19), there was a greater number of slow-twitch fibers in the vastus lateralis (56.1% ± 1.8% vs. 43.8% ± 2.2%, p = 1.0 × 10 -4 ; these results remained statistically significant after correction for multiple testing) and a higher proportion of area occupied by those fibers (50.0% vs. 41.8%, p = .033; Ahmetov, Williams, et al, 2009).…”

Section: Combined Impact Of Gene Variants On Muscle-fiber Compositionmentioning

confidence: 89%

“…We recently found that the frequency of the VEGFR2 472Gln allele was significantly higher in endurance-oriented Russian athletes than in controls. The 472Gln allele was also shown to be significantly related to a higher proportion of Type I fibers of vastus lateralis (determined by immunohistochemistry) in both athletes (all-round speed skaters, n = 23, age 20.4 ± 0.5 years) and physically active men (n = 45, age 23.5 ± 0.4 years; Ahmetov, Hakimullina, et al 2009). …”

Section: Vascular Endothelial Growth-factor Receptormentioning

confidence: 96%

“…It was shown that ACE deletion (D) allele (of the Alu I/D polymorphism) is associated with high serum and tissue ACE activity, Ahmetov, Hakimullina, et al, 2009 hypertension, Type 2 diabetes, obesity, coronary heart disease, and myocardial infarction (Kennon, Petrie, Small, & Connell, 1999;Rieder & Nickerson, 2000;Strazzullo et al, 2003). An excess of the ACE insertion (I) allele was found in endurance-oriented athletes compared with controls in several studies (reviewed in , indicating that the ACE I allele is favorable for aerobic performance.…”

Section: Angiotensin-i-converting Enzymementioning

confidence: 99%

“…Therefore, large sample sizes are needed to detect associations with single polymorphisms, and various combinatorial approaches should be used where the phenotypic variance associated with several genetic variants can be assessed simultaneously. We recently quantified the association between a combination of genotypes and fiber composition of vastus lateralis (determined by immunohistochemistry) in 45 healthy men (age 23.5 ± 0.4 years; Ahmetov, Williams, et al, 2009). For that analysis, we used 10 polymorphisms of genes involved in the calcineurin-NFAT pathway (PPP3R1 promoter 5I/5D, NFATC4 Gly160Ala), mitochondrial biogenesis (PPARGC1A Gly482Ser, PPARGC1B Ala203Pro, TFAM Ser12Thr), glucose and lipid metabolism (PPARA rs4253778 G/C, PPARD rs2016520 T/C), hypoxia/angiogenesis (VEGFA rs2010963 G/C), and thermogenesis (UCP2 Ala55Val, UCP3 rs1800849 C/T).…”

Section: Combined Impact Of Gene Variants On Muscle-fiber Compositionmentioning

confidence: 99%

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Gene Polymorphisms and Fiber-Type Composition of Human Skeletal Muscle

Ahmetov¹,

Виноградова²,

Williams³

2012

International Journal of Sport Nutrition and Exercise Metabolism

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The ability to perform aerobic or anaerobic exercise varies widely among individuals, partially depending on their muscle-fiber composition. Variability in the proportion of skeletal-muscle fiber types may also explain marked differences in aspects of certain chronic disease states including obesity, insulin resistance, and hypertension. In untrained individuals, the proportion of slow-twitch (Type I) fibers in the vastus lateralis muscle is typically around 50% (range 5-90%), and it is unusual for them to undergo conversion to fast-twitch fibers. It has been suggested that the genetic component for the observed variability in the proportion of Type I fibers in human muscles is on the order of 40-50%, indicating that muscle fiber-type composition is determined by both genotype and environment. This article briefly reviews current progress in the understanding of genetic determinism of fiber-type proportion in human skeletal muscle. Several polymorphisms of genes involved in the calcineurin-NFAT pathway, mitochondrial biogenesis, glucose and lipid metabolism, cytoskeletal function, hypoxia and angiogenesis, and circulatory homeostasis have been associated with fiber-type composition. As muscle is a major contributor to metabolism and physical strength and can readily adapt, it is not surprising that many of these gene variants have been associated with physical performance and athlete status, as well as metabolic and cardiovascular diseases. Genetic variants associated with fiber-type proportions have important implications for our understanding of muscle function in both health and disease.

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