Fat mass and obesity associated (FTO) gene influences skeletal muscle phenotypes in non-resistance trained males and elite rugby playing position

S. M. Heffernan; G. K. Stebbings; L. P. Kilduff; R. M. Erskine; S. H. Day; C. I. Morse; J. S. McPhee; C. J. Cook; B. Vance; W. J. Ribbans; S. M. Raleigh; C. Roberts; M. A. Bennett; G. Wang; M. Collins; Y. P. Pitsiladis; A. G. Williams

doi:10.1186/s12863-017-0470-1

Fat mass and obesity associated (FTO) gene influences skeletal muscle phenotypes in non-resistance trained males and elite rugby playing position

S. M. Heffernan^*, G. K. Stebbings, L. P. Kilduff, R. M. Erskine, S. H. Day, C. I. Morse, J. S. McPhee, C. J. Cook, B. Vance, W. J. Ribbans, S. M. Raleigh, C. Roberts, M. A. Bennett, G. Wang, M. Collins, Y. P. Pitsiladis, A. G. Williams

^*Corresponding author for this work

Research output: Contribution to journal › Journal article › peer-review

33 Citations (Scopus)

Abstract

Background: FTO gene variants have been associated with obesity phenotypes in sedentary and obese populations, but rarely with skeletal muscle and elite athlete phenotypes. Methods: In 1089 participants, comprising 530 elite rugby athletes and 559 non-athletes, DNA was collected and genotyped for the FTO rs9939609 variant using real-time PCR. In a subgroup of non-resistance trained individuals (NT; n = 120), we also assessed structural and functional skeletal muscle phenotypes using dual energy x-ray absorptiometry, ultrasound and isokinetic dynamometry. In a subgroup of rugby athletes (n = 77), we assessed muscle power during a countermovement jump. Results: In NT, TT genotype and T allele carriers had greater total body (4.8% and 4.1%) and total appendicular lean mass (LM; 3.0% and 2.1%) compared to AA genotype, with greater arm LM (0.8%) in T allele carriers and leg LM (2.1%) for TT, compared to AA genotype. Furthermore, the T allele was more common (94%) in selected elite rugby union athletes (back three and centre players) who are most reliant on LM rather than total body mass for success, compared to other rugby athletes (82%; P = 0.01, OR = 3.34) and controls (84%; P = 0.03, OR = 2.88). Accordingly, these athletes had greater peak power relative to body mass than other rugby athletes (14%; P = 2 x 10^-6). Conclusion: Collectively, these results suggest that the T allele is associated with increased LM and elite athletic success. This has implications for athletic populations, as well as conditions characterised by low LM such as sarcopenia and cachexia.

Original language	English
Article number	4
Number of pages	9
Journal	BMC Genetics
Volume	18
DOIs	https://doi.org/10.1186/s12863-017-0470-1
Publication status	Published - 19 Jan 2017

User-Defined Keywords

RugbyGene project
IRX3
Lean mass

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1186/s12863-017-0470-1

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Heffernan, S. M., Stebbings, G. K., Kilduff, L. P., Erskine, R. M., Day, S. H., Morse, C. I., McPhee, J. S., Cook, C. J., Vance, B., Ribbans, W. J., Raleigh, S. M., Roberts, C., Bennett, M. A., Wang, G., Collins, M., Pitsiladis, Y. P., & Williams, A. G. (2017). Fat mass and obesity associated (FTO) gene influences skeletal muscle phenotypes in non-resistance trained males and elite rugby playing position. BMC Genetics, 18, Article 4. https://doi.org/10.1186/s12863-017-0470-1

@article{98f5b291245e43c0827626ca9ffeb3d2,

title = "Fat mass and obesity associated (FTO) gene influences skeletal muscle phenotypes in non-resistance trained males and elite rugby playing position",

abstract = "Background: FTO gene variants have been associated with obesity phenotypes in sedentary and obese populations, but rarely with skeletal muscle and elite athlete phenotypes. Methods: In 1089 participants, comprising 530 elite rugby athletes and 559 non-athletes, DNA was collected and genotyped for the FTO rs9939609 variant using real-time PCR. In a subgroup of non-resistance trained individuals (NT; n = 120), we also assessed structural and functional skeletal muscle phenotypes using dual energy x-ray absorptiometry, ultrasound and isokinetic dynamometry. In a subgroup of rugby athletes (n = 77), we assessed muscle power during a countermovement jump. Results: In NT, TT genotype and T allele carriers had greater total body (4.8% and 4.1%) and total appendicular lean mass (LM; 3.0% and 2.1%) compared to AA genotype, with greater arm LM (0.8%) in T allele carriers and leg LM (2.1%) for TT, compared to AA genotype. Furthermore, the T allele was more common (94%) in selected elite rugby union athletes (back three and centre players) who are most reliant on LM rather than total body mass for success, compared to other rugby athletes (82%; P = 0.01, OR = 3.34) and controls (84%; P = 0.03, OR = 2.88). Accordingly, these athletes had greater peak power relative to body mass than other rugby athletes (14%; P = 2 x 10-6). Conclusion: Collectively, these results suggest that the T allele is associated with increased LM and elite athletic success. This has implications for athletic populations, as well as conditions characterised by low LM such as sarcopenia and cachexia.",

keywords = "RugbyGene project, IRX3, Lean mass",

author = "Heffernan, {S. M.} and Stebbings, {G. K.} and Kilduff, {L. P.} and Erskine, {R. M.} and Day, {S. H.} and Morse, {C. I.} and McPhee, {J. S.} and Cook, {C. J.} and B. Vance and Ribbans, {W. J.} and Raleigh, {S. M.} and C. Roberts and Bennett, {M. A.} and G. Wang and M. Collins and Pitsiladis, {Y. P.} and Williams, {A. G.}",

note = "Publisher Copyright: {\textcopyright} 2017 The Author(s).",

year = "2017",

month = jan,

day = "19",

doi = "10.1186/s12863-017-0470-1",

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Heffernan, SM, Stebbings, GK, Kilduff, LP, Erskine, RM, Day, SH, Morse, CI, McPhee, JS, Cook, CJ, Vance, B, Ribbans, WJ, Raleigh, SM, Roberts, C, Bennett, MA, Wang, G, Collins, M, Pitsiladis, YP & Williams, AG 2017, 'Fat mass and obesity associated (FTO) gene influences skeletal muscle phenotypes in non-resistance trained males and elite rugby playing position', BMC Genetics, vol. 18, 4. https://doi.org/10.1186/s12863-017-0470-1

TY - JOUR

T1 - Fat mass and obesity associated (FTO) gene influences skeletal muscle phenotypes in non-resistance trained males and elite rugby playing position

AU - Heffernan, S. M.

AU - Stebbings, G. K.

AU - Kilduff, L. P.

AU - Erskine, R. M.

AU - Day, S. H.

AU - Morse, C. I.

AU - McPhee, J. S.

AU - Cook, C. J.

AU - Vance, B.

AU - Ribbans, W. J.

AU - Raleigh, S. M.

AU - Roberts, C.

AU - Bennett, M. A.

AU - Wang, G.

AU - Collins, M.

AU - Pitsiladis, Y. P.

AU - Williams, A. G.

PY - 2017/1/19

Y1 - 2017/1/19

N2 - Background: FTO gene variants have been associated with obesity phenotypes in sedentary and obese populations, but rarely with skeletal muscle and elite athlete phenotypes. Methods: In 1089 participants, comprising 530 elite rugby athletes and 559 non-athletes, DNA was collected and genotyped for the FTO rs9939609 variant using real-time PCR. In a subgroup of non-resistance trained individuals (NT; n = 120), we also assessed structural and functional skeletal muscle phenotypes using dual energy x-ray absorptiometry, ultrasound and isokinetic dynamometry. In a subgroup of rugby athletes (n = 77), we assessed muscle power during a countermovement jump. Results: In NT, TT genotype and T allele carriers had greater total body (4.8% and 4.1%) and total appendicular lean mass (LM; 3.0% and 2.1%) compared to AA genotype, with greater arm LM (0.8%) in T allele carriers and leg LM (2.1%) for TT, compared to AA genotype. Furthermore, the T allele was more common (94%) in selected elite rugby union athletes (back three and centre players) who are most reliant on LM rather than total body mass for success, compared to other rugby athletes (82%; P = 0.01, OR = 3.34) and controls (84%; P = 0.03, OR = 2.88). Accordingly, these athletes had greater peak power relative to body mass than other rugby athletes (14%; P = 2 x 10-6). Conclusion: Collectively, these results suggest that the T allele is associated with increased LM and elite athletic success. This has implications for athletic populations, as well as conditions characterised by low LM such as sarcopenia and cachexia.

AB - Background: FTO gene variants have been associated with obesity phenotypes in sedentary and obese populations, but rarely with skeletal muscle and elite athlete phenotypes. Methods: In 1089 participants, comprising 530 elite rugby athletes and 559 non-athletes, DNA was collected and genotyped for the FTO rs9939609 variant using real-time PCR. In a subgroup of non-resistance trained individuals (NT; n = 120), we also assessed structural and functional skeletal muscle phenotypes using dual energy x-ray absorptiometry, ultrasound and isokinetic dynamometry. In a subgroup of rugby athletes (n = 77), we assessed muscle power during a countermovement jump. Results: In NT, TT genotype and T allele carriers had greater total body (4.8% and 4.1%) and total appendicular lean mass (LM; 3.0% and 2.1%) compared to AA genotype, with greater arm LM (0.8%) in T allele carriers and leg LM (2.1%) for TT, compared to AA genotype. Furthermore, the T allele was more common (94%) in selected elite rugby union athletes (back three and centre players) who are most reliant on LM rather than total body mass for success, compared to other rugby athletes (82%; P = 0.01, OR = 3.34) and controls (84%; P = 0.03, OR = 2.88). Accordingly, these athletes had greater peak power relative to body mass than other rugby athletes (14%; P = 2 x 10-6). Conclusion: Collectively, these results suggest that the T allele is associated with increased LM and elite athletic success. This has implications for athletic populations, as well as conditions characterised by low LM such as sarcopenia and cachexia.

KW - RugbyGene project

KW - IRX3

KW - Lean mass

UR - http://www.scopus.com/inward/record.url?scp=85009953616&partnerID=8YFLogxK

U2 - 10.1186/s12863-017-0470-1

DO - 10.1186/s12863-017-0470-1

M3 - Journal article

C2 - 28103813

AN - SCOPUS:85009953616

SN - 1471-2156

VL - 18

JO - BMC Genetics

JF - BMC Genetics

M1 - 4

ER -

Fat mass and obesity associated (FTO) gene influences skeletal muscle phenotypes in non-resistance trained males and elite rugby playing position

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