Genomic analysis reveals association of specific SNPs with athletic performance and susceptibility to injuries in professional soccer players

The development of specific and individualized training programs is a possible way to improve athletic performance and minimize injuries in professional athletes. The information regarding the sport's physical demands and the athletes’ physical profile have been, so far, considered as exhaustiv...

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Bibliographic Details
Published in:Journal of cellular physiology 2020-03, Vol.235 (3), p.2139-2148
Main Authors: Montagna, Raffaele, Canonico, Raffaele, Alfano, Luigi, Bucci, Enrico, Boffo, Silvia, Staiano, Leopoldo, Fulco, Beniamino, D'Andrea, Enrico, Nicola, Antonio, Maiorano, Patrizia, D'Angelo, Costantino, Chirico, Andrea, Nicola, Alfonso, Giordano, Antonio
Format: Article
Language:English
Subjects:
Athletes
athletic performance
Athletic Performance - physiology
DNA fingerprinting
Gene polymorphism
genes
Genetic analysis
Genetic Association Studies - methods
Genetic fingerprinting
Genetic Predisposition to Disease - genetics
Genetic screening
Genomic analysis
Genomics
Genotype
Humans
Injuries
Injury analysis
Injury prevention
Male
Nutrition
Physical stress
Physical training
Polymorphism
Polymorphism, Single Nucleotide - genetics
professional soccer players
Single-nucleotide polymorphism
single‐nucleotide polymorphisms
Soccer
Soccer - physiology
Training
Vascular endothelial growth factor
Wounds and Injuries - genetics
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Summary:The development of specific and individualized training programs is a possible way to improve athletic performance and minimize injuries in professional athletes. The information regarding the sport's physical demands and the athletes’ physical profile have been, so far, considered as exhaustive for the design of effective training programs. However, it is currently emerging that the genetic profile has to be also taken into consideration. By merging medical and genetic data, it is thus possible to identify the athlete's specific attitude to respond to training, diet, and physical stress. In this context, we performed a study in which 30 professional soccer players, subjected to standard sport medical evaluation and practices, were also screened for genetic polymorphism in five key genes (ACTN3, COL5A1, MCT1, VEGF, and HFE). This genetic analysis represents the central point of a multidisciplinary method that can be adopted by elite soccer teams to obtain an improvement in athletic performance and a concomitant reduction of injuries by tailoring training and nutritional programs. The genetic fingerprinting of single athletes led to the identification of two performance‐enhancing polymorphisms (ACTN3 18705C>T, VEGF‐634C>G) significantly enriched. Moreover, we derived a genetic model based on the gene set analyzed, which was tentatively used to reduce athletes’ predisposition to injuries, by dictating a personalized nutrition and training program. The potential usefulness of this approach is concordant with data showing that this team has been classified as the healthiest and least injured team in Europe while covering the highest distance/match with the highest number of high‐intensity actions/match. The development of specific and individualized training programs is a possible way to improve athletic performance and minimize injuries in professional athletes. By merging medical and genetic data, it is thus possible to identify the athlete's specific attitude to respond to training, diet, and physical stress. In this context, we performed a study in which 30 professional soccer players were also screened for genetic polymorphism in five key genes (ACTN3, COL5A1, MCT1, VEGF, and HFE) to correlate the SNPs with the personalized nutrition and training program.
ISSN:0021-9541
1097-4652
DOI:10.1002/jcp.29118