ACTN3 genotype is associated with human elite athletic performance.

Bibliographic Collection: 
MOCA Reference, APE
Publication Type: Journal Article
Authors: Yang, Nan; MacArthur, Daniel G; Gulbin, Jason P; Hahn, Allan G; Beggs, Alan H; Easteal, Simon; North, Kathryn
Year of Publication: 2003
Journal: Am J Hum Genet
Volume: 73
Issue: 3
Pagination: 627-31
Date Published: 2003 Sep
Publication Language: eng
ISSN: 0002-9297
Keywords: Actinin, Adult, Child, Cohort Studies, Female, Gene Frequency, Humans, Male, Physical Endurance, Physical Fitness, Running, Sports
Abstract:

There is increasing evidence for strong genetic influences on athletic performance and for an evolutionary "trade-off" between performance traits for speed and endurance activities. We have recently demonstrated that the skeletal-muscle actin-binding protein alpha-actinin-3 is absent in 18% of healthy white individuals because of homozygosity for a common stop-codon polymorphism in the ACTN3 gene, R577X. alpha-Actinin-3 is specifically expressed in fast-twitch myofibers responsible for generating force at high velocity. The absence of a disease phenotype secondary to alpha-actinin-3 deficiency is likely due to compensation by the homologous protein, alpha-actinin-2. However, the high degree of evolutionary conservation of ACTN3 suggests function(s) independent of ACTN2. Here, we demonstrate highly significant associations between ACTN3 genotype and athletic performance. Both male and female elite sprint athletes have significantly higher frequencies of the 577R allele than do controls. This suggests that the presence of alpha-actinin-3 has a beneficial effect on the function of skeletal muscle in generating forceful contractions at high velocity, and provides an evolutionary advantage because of increased sprint performance. There is also a genotype effect in female sprint and endurance athletes, with higher than expected numbers of 577RX heterozygotes among sprint athletes and lower than expected numbers among endurance athletes. The lack of a similar effect in males suggests that the ACTN3 genotype affects athletic performance differently in males and females. The differential effects in sprint and endurance athletes suggests that the R577X polymorphism may have been maintained in the human population by balancing natural selection.

DOI: 10.1086/377590
Alternate Journal: Am. J. Hum. Genet.
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