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http://hdl.handle.net/10553/134411
Título: | Unlocking peak performance: The role of Nrf2 in enhancing exercise outcomes and training adaptation in humans | Autores/as: | Martínez Cantón, Miriam Galván Álvarez, Víctor Martín Rincón, Marcos Calbet, José A.L. Gallego Selles, Ángel |
Clasificación UNESCO: | 241106 Fisiología del ejercicio | Palabras clave: | Transcription Factor Nrf2 Human Skeletal-Muscle Glycogen-Synthase Kinase-3-Beta Oxidative Stress Antioxidant Response, et al. |
Fecha de publicación: | 2024 | Publicación seriada: | Free Radical Biology and Medicine | Resumen: | Since the discovery of the nuclear factor erythroid-derived 2-like 2 (Nrf2) transcription factor thirty years ago, it has been shown that it regulates more than 250 genes involved in a multitude of biological processes, including redox balance, mitochondrial biogenesis, metabolism, detoxification, cytoprotection, inflammation, immunity, autophagy, cell differentiation, and xenobiotic metabolism. In skeletal muscle, Nrf2 signalling is primarily activated in response to perturbation of redox balance by reactive oxygen species or electrophiles. Initial investigations into human skeletal muscle Nrf2 responses to exercise, dating back roughly a decade, have consistently indicated that exercise-induced ROS production stimulates Nrf2 signalling. Notably, recent studies employing Nrf2 knockout mice have revealed impaired skeletal muscle contractile function characterised by reduced force output and increased fatigue susceptibility compared to wild-type counterparts. These deficiencies partially stem from diminished basal mitochondrial respiratory capacity and an impaired capacity to upregulate specific mitochondrial proteins in response to training, findings corroborated by inducible muscle-specific Nrf2 knockout models. In humans, baseline Nrf2 expression in skeletal muscle correlates with maximal oxygen uptake and high-intensity exercise performance. This manuscript delves into the mechanisms underpinning Nrf2 signalling in response to acute exercise in human skeletal muscle, highlighting the involvement of ROS, antioxidants and Keap1/Nrf2 signalling in exercise performance. Furthermore, it explores Nrf2's role in mediating adaptations to chronic exercise and its impact on overall exercise performance. Additionally, the influence of diet and certain supplements on basal Nrf2 expression and its role in modulating acute and chronic exercise responses are briefly addressed. | URI: | http://hdl.handle.net/10553/134411 | ISSN: | 0891-5849 | DOI: | 10.1016/j.freeradbiomed.2024.08.011 | Fuente: | Free Radical Biology And Medicine [ISSN 0891-5849], v. 224, p. 168-181, (Noviembre 2024) |
Colección: | Artículos |
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