Association of ACTN3 R577X but not ACE I/D gene variants with elite rugby union player status and playing position.

S M Heffernan,G E Mcmahon,J P H Neale,C J Cook,M Collins,S M Raleigh,A G Williams,Y P Pitsiladis,L P Kilduff,G K Stebbings,W J Ribbans,G Wang,M A Bennett,S J Lockey,R M Erskine,J S Mcphee,C Roberts,B Vance,S H Day

doi:10.1152/physiolgenomics.00107.2015

Abstract

We aimed to quantify the ACE I/D and ACTN3 R577X (rs1815739) genetic variants in elite rugby athletes (rugby union and league) and compare genotype frequencies to controls and between playing positions. The rugby athlete cohort consisted of 507 Caucasian men, including 431 rugby union athletes that for some analyses were divided into backs and forwards and into specific positional groups: front five, back row, half backs, centers, and back three. Controls were 710 Caucasian men and women. Real-time PCR of genomic DNA was used to determine genotypes using TaqMan probes and groups were compared using χ2 and odds ratio (OR) statistics. Correction of P values for multiple comparisons was according to Benjamini-Hochberg. There was no difference in ACE I/D genotype between groups. ACTN3 XX genotype tended to be underrepresented in rugby union backs (15.7%) compared with forwards (24.8%, P = 0.06). Interestingly, the 69 back three players (wings and full backs) in rugby union included only six XX genotype individuals (8.7%), with the R allele more common in the back three (68.8%) than controls (58.0%; χ2 = 6.672, P = 0.04; OR = 1.60) and forwards (47.5%; χ2 = 11.768, P = 0.01; OR = 2.00). Association of ACTN3 R577X with playing position in elite rugby union athletes suggests inherited fatigue resistance is more prevalent in forwards, while inherited sprint ability is more prevalent in backs, especially wings and full backs. These results also demonstrate the advantage of focusing genetic studies on a large cohort within a single sport, especially when intrasport positional differences exist, instead of combining several sports with varied demands and athlete characteristics.

Highlights

RUGBY IS AN INTERMITTENT TEAM sport comprising two similar but differing codes, rugby league (RL) and rugby union (RU)
The purpose of the present study was to investigate whether elite rugby athletes in the RugbyGene project [18] and a control group differed in terms of ACE I/D and ACTN3 R577X genotype distribution and whether athletes in specialized playing positions differed
The present study is the first to show a genetic association with elite athlete status in RU

Summary

Introduction

RUGBY IS AN INTERMITTENT TEAM sport comprising two similar but differing codes, rugby league (RL) and rugby union (RU). Due to the complexities of forward play, forwards performed sixfold more (9.9%) high-intensity static exertion activities (rucks, mauls, scrums, and line-outs) than backs (1.6%) and spent 19.8% more time running above 80% of their maximal speed (8, 27, respectively) This implies that forwards, often of higher body mass [14], are more likely to benefit from fatigue-resistant physiological qualities than backs. The purpose of the present study was to investigate whether elite rugby athletes in the RugbyGene project [18] and a control group differed in terms of ACE I/D and ACTN3 R577X genotype distribution and whether athletes in specialized playing positions differed. It was further hypothesized that ACTN3 XX and ACE II genotypes would be underrepresented in RU backs compared with forwards, due to differences in overall work-to-rest ratio and differing requirements for high maximum speed

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Conclusion