Oxidative Stress, Mitochondrial Function and Adaptation to Exercise: New Perspectives in Nutrition

Oxidative Stress, Mitochondrial Function and Adaptation to Exercise: New Perspectives in Nutrition

Cells have the ability to adapt to stressful environments as a part of their evolution. Physical exercise induces an increase of a demand for energy that must be met by mitochondria as the main (ATP) provider. However, this process leads to the increase of free radicals and the so-called reactive ox...

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Veröffentlicht in:Life (Basel, Switzerland) Switzerland), 2021-11, Vol.11 (11), p.1269
Hauptverfasser: Vargas-Mendoza, Nancy, Angeles-Valencia, Marcelo, Morales-González, Ángel, Madrigal-Santillán, Eduardo Osiris, Morales-Martínez, Mauricio, Madrigal-Bujaidar, Eduardo, Álvarez-González, Isela, Gutiérrez-Salinas, José, Esquivel-Chirino, César, Chamorro-Cevallos, Germán, Cristóbal-Luna, José Melesio, Morales-González, José A.
Format: Artikel
Sprache:eng
Schlagworte:
Adaptation
Antioxidants
Cell signaling
Crosstalk
Dehydrogenases
Endurance
Exercise
Force
Free radicals
Genomes
Homeostasis
Metabolism
Mitochondria
mitochondrial adaptation
Molecular modelling
Muscle contraction
Muscle fatigue
Nutrients
Nutrition
Oxidation
oxidative damage
Oxidative stress
Phosphorylation
Physical exercise
Physical fitness
Reactive oxygen species
Respiration
Review
ROS/RNS
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Zusammenfassung:Cells have the ability to adapt to stressful environments as a part of their evolution. Physical exercise induces an increase of a demand for energy that must be met by mitochondria as the main (ATP) provider. However, this process leads to the increase of free radicals and the so-called reactive oxygen species (ROS), which are necessary for the maintenance of cell signaling and homeostasis. In addition, mitochondrial biogenesis is influenced by exercise in continuous crosstalk between the mitochondria and the nuclear genome. Excessive workloads may induce severe mitochondrial stress, resulting in oxidative damage. In this regard, the objective of this work was to provide a general overview of the molecular mechanisms involved in mitochondrial adaptation during exercise and to understand if some nutrients such as antioxidants may be implicated in blunt adaptation and/or an impact on the performance of exercise by different means.
ISSN:2075-1729
2075-1729
DOI:10.3390/life11111269