Athlome Project Consortium: a concerted effort to discover genomic and other "omic" markers of athletic performance

doi:10.1152/physiolgenomics.00105.2015

Review

. 2016 Mar;48(3):183-90.

doi: 10.1152/physiolgenomics.00105.2015. Epub 2015 Dec 29.

Athlome Project Consortium: a concerted effort to discover genomic and other "omic" markers of athletic performance

Yannis P Pitsiladis¹, Masashi Tanaka², Nir Eynon³, Claude Bouchard⁴, Kathryn N North⁵, Alun G Williams⁶, Malcolm Collins⁷, Colin N Moran⁸, Steven L Britton⁹, Noriyuki Fuku¹⁰, Euan A Ashley¹¹, Vassilis Klissouras¹², Alejandro Lucia¹³, Ildus I Ahmetov¹⁴, Eco de Geus¹⁵, Mohammed Alsayrafi¹⁶; Athlome Project Consortium

Collaborators, Affiliations

Collaborators

Athlome Project Consortium:
Yannis P Pitsiladis, Nir Eynon, Claude Bouchard, Kathryn N North, Alun G Williams, Malcolm Collins, Colin N Moran, Steven L Britton, Noriyuki Fuku, Eco de Geus, Vassilis Klissouras, Euan A Ashley, Alejandro Lucia, Ildus I Ahmetov, Mohammed Alsayrafi, Masashi Tanaka, Yannis P Pitsiladis, Nick Webborn, Guan Wang, Nir Eynon, David J Bishop, Ioannis Papadimitriou, Xu Yan, Oren Tirosh, Jujiao Kuang, Claude Bouchard, Tuomo Rankinen, Mark Sarzinsky, Euan A Ashley, C Mikael Mattsson, Matthew Wheeler, Daryl Waggott, Nuala M Byrne, Guilherme G Artioli, Malcolm Collins, Michael Posthumus, Willem van der Merwe, Pawel Cieszczyk, Agata Leonska-Duniec, Krzysztof Ficek, Agnieszka Maciejewska-Karlowska, Marek Sawczuk, Marta Stepien-Slodkowska, Julian Feller, Paul Dijkstra, Aleksandr M Chmutov, Dmitry A Dyatlov, Evgeniy F Orekhov, Yuliya E Pushkareva, Irina A Shvedkaya, Myosotis Massidda, Carla M Calò, Alun G Williams, Stephen H Day, Georgina K Stebbings, Robert M Erskine, Hugh E Montgomery, Kathryn N North, Fleur C Garton, Peter Houweling, Wim Derave, Audrey Baguet, Alejandro Lucia, Carlos A Muniesa, Francesco Sessa, Annamarie Petito, Craig Sale, David C Hughes, Ian Varley, Eco de Geus, Dorret Boomsma, Meike Bartels, Gareth E Davies, Valentina Ginevičienė, Audronė Jakaitienė, Vaidutis Kučinskas, Linas Tubelis, Algirdas Utkus, Kazys Milašius, Linas Tubelis, Colin N Moran, Tomas Venckunas, Albertas Skurvydas, Arvydas Stasiulis, Dalia Malkova, Richard Wilson, Steven L Britton, Lauren G Koch, Noriyuki Fuku, Hirofumi Zempo, Hisashi Naito, Noriko Ichinoseki-Sekine, Naoki Kikuchi, Eri Miyamoto-Mikami, Haruka Murakami, Motohiko Miyachi, Hideyuki Takahashi, Nao Ohiwa, Takashi Kawahara, Hiroyasu Tsuchie, Takuro Tobina, Noriko Ichinoseki-Sekine, Hiroaki Tanaka, Koji Kaneoka, Koichi Nakazato, Ildus I Ahmetov, Emiliya S Egorova, Leysan J Gabdrakhmanova, Alina A Arkhipova, Alyona V Borisova, Rashid T Gabbasov, Albina A Stepanova, Ravil I Kashapov, Victor A Rogozkin, Irina V Astratenkova, Anastasiya M Druzhevskaya, Olga N Fedotovskaya, Natalya D Golberg, Albina M Hakimullina, Elena S Kostryukova, Dmitry G Alexeev, Edward V Generozov, Dmitry S Ischenko, Nickolay A Kulemin, Andrey K Larin, Elena A Ospanova, Alexander V Pavlenko, Vadim M Govorun, Andrei A Gilep, Irina L Gilep, Irina V Haidukevich, Irina L Rybina, Svitlana B Drozdovska, Victor E Docenko, Vladimir N Ilyin, Eugeniy Lekontsev, Egor B Akimov, Mohamed El-Rayess, Costas Georgakopoulos, Mohammed Alsayrafi, Francesco Botre, Karsten Suhre, Mike Hubank, Vassilis Klissouras, Bernd Wolfarth, Julie P Greeves, Trent Stellingwerff, Craig Ranson, William D Fraser, Rebecca Grealy, Lyn Griffiths, Robert Scott, C Mikael Mattsson, Masashi Tanaka, Vladimir P Pushkarev

Affiliations

¹ FIMS Reference Collaborating Centre of Sports Medicine for Anti-Doping Research, University of Brighton, Eastbourne, United Kingdom; y.pitsiladis@brighton.ac.uk.
² Department of Longevity and Health, Tokyo Metropolitan Institute of Gerontology, Tokyo, Japan;
³ Institute of Sport, Exercise, and Active Living (ISEAL), Victoria University, Melbourne, Australia;
⁴ Human Genomics Laboratory, Pennington Biomedical Research Center, Louisiana State University, Baton Rouge, Louisiana;
⁵ Murdoch Childrens Research Institute and University of Melbourne, Melbourne, Australia;
⁶ Department of Exercise and Sport Science, Manchester Metropolitan University, Crewe, United Kingdom;
⁷ Division of Exercise Science and Sports Medicine, Department of Human Biology, University of Cape Town, Cape Town, South African;
⁸ Health and Exercise Sciences Research Group, University of Stirling, Stirling, United Kingdom;
⁹ Department of Anesthesiology, University of Michigan Medical School, Ann Arbor, Michigan;
¹⁰ Graduate School of Health and Sports Science, Juntendo University, Chiba, Japan;
¹¹ Stanford University Medical Center, Stanford, California;
¹² Ergophysiology Research Laboratory, Department of Sport Medicine and Biology of Physical Activity, University of Athens, Athens, Greece;
¹³ School of Doctorate Studies & Research, Universidad Europea de Madrid, Madrid, Spain;
¹⁴ Sport Technology Research Centre, Volga Region State Academy of Physical Culture, Sport and Tourism, Kazan, Russia;
¹⁵ VU University and VU Medical Centre, Amsterdam, Netherlands; and Anti-Doping Lab Qatar (ADLQ), Doha, Qatar.
¹⁶ Anti-Doping Lab Qatar (ADLQ), Doha, Qatar.

PMID: 26715623
PMCID: PMC4773890
DOI: 10.1152/physiolgenomics.00105.2015

Review

Athlome Project Consortium: a concerted effort to discover genomic and other "omic" markers of athletic performance

Yannis P Pitsiladis et al. Physiol Genomics. 2016 Mar.

. 2016 Mar;48(3):183-90.

doi: 10.1152/physiolgenomics.00105.2015. Epub 2015 Dec 29.

Authors

Collaborators

Athlome Project Consortium:
Yannis P Pitsiladis, Nir Eynon, Claude Bouchard, Kathryn N North, Alun G Williams, Malcolm Collins, Colin N Moran, Steven L Britton, Noriyuki Fuku, Eco de Geus, Vassilis Klissouras, Euan A Ashley, Alejandro Lucia, Ildus I Ahmetov, Mohammed Alsayrafi, Masashi Tanaka, Yannis P Pitsiladis, Nick Webborn, Guan Wang, Nir Eynon, David J Bishop, Ioannis Papadimitriou, Xu Yan, Oren Tirosh, Jujiao Kuang, Claude Bouchard, Tuomo Rankinen, Mark Sarzinsky, Euan A Ashley, C Mikael Mattsson, Matthew Wheeler, Daryl Waggott, Nuala M Byrne, Guilherme G Artioli, Malcolm Collins, Michael Posthumus, Willem van der Merwe, Pawel Cieszczyk, Agata Leonska-Duniec, Krzysztof Ficek, Agnieszka Maciejewska-Karlowska, Marek Sawczuk, Marta Stepien-Slodkowska, Julian Feller, Paul Dijkstra, Aleksandr M Chmutov, Dmitry A Dyatlov, Evgeniy F Orekhov, Yuliya E Pushkareva, Irina A Shvedkaya, Myosotis Massidda, Carla M Calò, Alun G Williams, Stephen H Day, Georgina K Stebbings, Robert M Erskine, Hugh E Montgomery, Kathryn N North, Fleur C Garton, Peter Houweling, Wim Derave, Audrey Baguet, Alejandro Lucia, Carlos A Muniesa, Francesco Sessa, Annamarie Petito, Craig Sale, David C Hughes, Ian Varley, Eco de Geus, Dorret Boomsma, Meike Bartels, Gareth E Davies, Valentina Ginevičienė, Audronė Jakaitienė, Vaidutis Kučinskas, Linas Tubelis, Algirdas Utkus, Kazys Milašius, Linas Tubelis, Colin N Moran, Tomas Venckunas, Albertas Skurvydas, Arvydas Stasiulis, Dalia Malkova, Richard Wilson, Steven L Britton, Lauren G Koch, Noriyuki Fuku, Hirofumi Zempo, Hisashi Naito, Noriko Ichinoseki-Sekine, Naoki Kikuchi, Eri Miyamoto-Mikami, Haruka Murakami, Motohiko Miyachi, Hideyuki Takahashi, Nao Ohiwa, Takashi Kawahara, Hiroyasu Tsuchie, Takuro Tobina, Noriko Ichinoseki-Sekine, Hiroaki Tanaka, Koji Kaneoka, Koichi Nakazato, Ildus I Ahmetov, Emiliya S Egorova, Leysan J Gabdrakhmanova, Alina A Arkhipova, Alyona V Borisova, Rashid T Gabbasov, Albina A Stepanova, Ravil I Kashapov, Victor A Rogozkin, Irina V Astratenkova, Anastasiya M Druzhevskaya, Olga N Fedotovskaya, Natalya D Golberg, Albina M Hakimullina, Elena S Kostryukova, Dmitry G Alexeev, Edward V Generozov, Dmitry S Ischenko, Nickolay A Kulemin, Andrey K Larin, Elena A Ospanova, Alexander V Pavlenko, Vadim M Govorun, Andrei A Gilep, Irina L Gilep, Irina V Haidukevich, Irina L Rybina, Svitlana B Drozdovska, Victor E Docenko, Vladimir N Ilyin, Eugeniy Lekontsev, Egor B Akimov, Mohamed El-Rayess, Costas Georgakopoulos, Mohammed Alsayrafi, Francesco Botre, Karsten Suhre, Mike Hubank, Vassilis Klissouras, Bernd Wolfarth, Julie P Greeves, Trent Stellingwerff, Craig Ranson, William D Fraser, Rebecca Grealy, Lyn Griffiths, Robert Scott, C Mikael Mattsson, Masashi Tanaka, Vladimir P Pushkarev

Affiliations

¹ FIMS Reference Collaborating Centre of Sports Medicine for Anti-Doping Research, University of Brighton, Eastbourne, United Kingdom; y.pitsiladis@brighton.ac.uk.
² Department of Longevity and Health, Tokyo Metropolitan Institute of Gerontology, Tokyo, Japan;
³ Institute of Sport, Exercise, and Active Living (ISEAL), Victoria University, Melbourne, Australia;
⁴ Human Genomics Laboratory, Pennington Biomedical Research Center, Louisiana State University, Baton Rouge, Louisiana;
⁵ Murdoch Childrens Research Institute and University of Melbourne, Melbourne, Australia;
⁶ Department of Exercise and Sport Science, Manchester Metropolitan University, Crewe, United Kingdom;
⁷ Division of Exercise Science and Sports Medicine, Department of Human Biology, University of Cape Town, Cape Town, South African;
⁸ Health and Exercise Sciences Research Group, University of Stirling, Stirling, United Kingdom;
⁹ Department of Anesthesiology, University of Michigan Medical School, Ann Arbor, Michigan;
¹⁰ Graduate School of Health and Sports Science, Juntendo University, Chiba, Japan;
¹¹ Stanford University Medical Center, Stanford, California;
¹² Ergophysiology Research Laboratory, Department of Sport Medicine and Biology of Physical Activity, University of Athens, Athens, Greece;
¹³ School of Doctorate Studies & Research, Universidad Europea de Madrid, Madrid, Spain;
¹⁴ Sport Technology Research Centre, Volga Region State Academy of Physical Culture, Sport and Tourism, Kazan, Russia;
¹⁵ VU University and VU Medical Centre, Amsterdam, Netherlands; and Anti-Doping Lab Qatar (ADLQ), Doha, Qatar.
¹⁶ Anti-Doping Lab Qatar (ADLQ), Doha, Qatar.

PMID: 26715623
PMCID: PMC4773890
DOI: 10.1152/physiolgenomics.00105.2015

Abstract

Despite numerous attempts to discover genetic variants associated with elite athletic performance, injury predisposition, and elite/world-class athletic status, there has been limited progress to date. Past reliance on candidate gene studies predominantly focusing on genotyping a limited number of single nucleotide polymorphisms or the insertion/deletion variants in small, often heterogeneous cohorts (i.e., made up of athletes of quite different sport specialties) have not generated the kind of results that could offer solid opportunities to bridge the gap between basic research in exercise sciences and deliverables in biomedicine. A retrospective view of genetic association studies with complex disease traits indicates that transition to hypothesis-free genome-wide approaches will be more fruitful. In studies of complex disease, it is well recognized that the magnitude of genetic association is often smaller than initially anticipated, and, as such, large sample sizes are required to identify the gene effects robustly. A symposium was held in Athens and on the Greek island of Santorini from 14-17 May 2015 to review the main findings in exercise genetics and genomics and to explore promising trends and possibilities. The symposium also offered a forum for the development of a position stand (the Santorini Declaration). Among the participants, many were involved in ongoing collaborative studies (e.g., ELITE, GAMES, Gene SMART, GENESIS, and POWERGENE). A consensus emerged among participants that it would be advantageous to bring together all current studies and those recently launched into one new large collaborative initiative, which was subsequently named the Athlome Project Consortium.

Keywords: genetics; performance; sports genomics.

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Figures

**Fig. 1.**
The Athlome Project Consortium. Genomic, epigenomic, transcriptomic, proteomic, and metabolomic studies are being conducted by the participating centers to address questions in the 3 main research areas: elite performance, training response, and injury. Future investigations planned include studies on genetic modification.

See this image and copyright information in PMC

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References

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[1] Caplan AL. What no one knows cannot hurt you: the limits of informed consent in the emerging world of biobanking. In: The Ethics of Research Biobanking, edited by Solbakk JH, Holm S, Hofmann B. Springer US, 2009, p. 25–32.

[2] Caplan AL. What no one knows cannot hurt you: the limits of informed consent in the emerging world of biobanking. In: The Ethics of Research Biobanking, edited by Solbakk JH, Holm S, Hofmann B. Springer US, 2009, p. 25–32.

[3] Greely HT. The uneasy ethical and legal underpinnings of large-scale genomic biobanks. Annu Rev Genomics Hum Genet 8: 343–364, 2007. - PubMed

[4] Greely HT. The uneasy ethical and legal underpinnings of large-scale genomic biobanks. Annu Rev Genomics Hum Genet 8: 343–364, 2007. - PubMed

[5] Hansson MG. Ethics and biobanks. Br J Cancer 100: 8–12, 2009. - PMC - PubMed

[6] Hansson MG. Ethics and biobanks. Br J Cancer 100: 8–12, 2009. - PMC - PubMed

[7] Hansson MG, Dillner J, Bartram CR, Carlson JA, Helgesson G. Should donors be allowed to give broad consent to future biobank research? Lancet Oncol 7: 266–269, 2006. - PubMed

[8] Hansson MG, Dillner J, Bartram CR, Carlson JA, Helgesson G. Should donors be allowed to give broad consent to future biobank research? Lancet Oncol 7: 266–269, 2006. - PubMed

[9] Hofmann B. Broadening consent-and diluting ethics? J Med Ethics 35: 125–129, 2009. - PubMed

[10] Hofmann B. Broadening consent-and diluting ethics? J Med Ethics 35: 125–129, 2009. - PubMed

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Athlome Project Consortium: a concerted effort to discover genomic and other "omic" markers of athletic performance

Collaborators

Affiliations

Athlome Project Consortium: a concerted effort to discover genomic and other "omic" markers of athletic performance

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