N V Margaritelis1,2, A A Theodorou3, V Paschalis4, A S Veskoukis1, K Dipla1, A Zafeiridis1, G Panayiotou3, I S Vrabas1, A Kyparos1, M G Nikolaidis1. 1. Department of Physical Education and Sports Science at Serres, Aristotle University of Thessaloniki, Serres, Greece. 2. Intensive Care Unit, 424 General Military Hospital of Thessaloniki, Thessaloniki, Greece. 3. Department of Health Sciences, School of Sciences, European University Cyprus, Nicosia, Cyprus. 4. School of Physical Education and Sport Science, National and Kapodistrian University of Athens, Athens, Greece.
Abstract
AIM: The aim of this study was to reveal the role of reactive oxygen and nitrogen species (RONS) in exercise adaptations under physiological in vivo conditions and without the interference from other exogenous redox agents (e.g. a pro-oxidant or antioxidant). METHODS: We invented a novel methodological set-up that exploited the large redox interindividual variability in exercise responses. More specifically, we used exercise-induced oxidative stress as the 'classifier' measure (i.e. low, moderate and high) and investigated the physiological and redox adaptations after a 6-week endurance training protocol. RESULTS: We demonstrated that the group with the low exercise-induced oxidative stress exhibited the lowest improvements in a battery of classic adaptations to endurance training (VO2 max, time trial and Wingate test) as well as in a set of redox biomarkers (oxidative stress biomarkers and antioxidants), compared to the high and moderate oxidative stress groups. CONCLUSION: The findings of this study substantiate, for the first time in a human in vivo physiological context, and in the absence of any exogenous redox manipulation, the vital role of RONS produced during exercise in adaptations. The stratification approach, based on a redox phenotype, implemented in this study could be a useful experimental strategy to reveal the role of RONS and antioxidants in other biological manifestations as well.
AIM: The aim of this study was to reveal the role of reactive oxygen and nitrogen species (RONS) in exercise adaptations under physiological in vivo conditions and without the interference from other exogenous redox agents (e.g. a pro-oxidant or antioxidant). METHODS: We invented a novel methodological set-up that exploited the large redox interindividual variability in exercise responses. More specifically, we used exercise-induced oxidative stress as the 'classifier' measure (i.e. low, moderate and high) and investigated the physiological and redox adaptations after a 6-week endurance training protocol. RESULTS: We demonstrated that the group with the low exercise-induced oxidative stress exhibited the lowest improvements in a battery of classic adaptations to endurance training (VO2 max, time trial and Wingate test) as well as in a set of redox biomarkers (oxidative stress biomarkers and antioxidants), compared to the high and moderate oxidative stress groups. CONCLUSION: The findings of this study substantiate, for the first time in a human in vivo physiological context, and in the absence of any exogenous redox manipulation, the vital role of RONS produced during exercise in adaptations. The stratification approach, based on a redox phenotype, implemented in this study could be a useful experimental strategy to reveal the role of RONS and antioxidants in other biological manifestations as well.
Authors: Neil T Smith; Ana Soriano-Arroquia; Katarzyna Goljanek-Whysall; Malcolm J Jackson; Brian McDonagh Journal: J Proteomics Date: 2018-02-10 Impact factor: 4.044
Authors: Saad Al Fazazi; Rafael A Casuso; Jerónimo Aragón-Vela; Cristina Casals; Jesús R Huertas Journal: J Int Soc Sports Nutr Date: 2018-04-27 Impact factor: 5.150