Identificador persistente para citar o vincular este elemento: http://hdl.handle.net/10553/71204
Título: Mitochondrial oxygen affinity increases after sprint interval training and is related to the improvement in peak oxygen uptake
Autores/as: Larsen, Filip J.
Schiffer, Tomas A.
Zinner, Christoph
Willis, Sarah J.
Morales Álamo, David 
Calbet, José A.L. 
Boushel ---,Robert 
Holmberg ---,Hans-Christer 
Clasificación UNESCO: 241106 Fisiología del ejercicio
Palabras clave: Exercise
High intensity training
Maximal oxygen consumption
Mitochondria
Oxygen affinity, et al.
Fecha de publicación: 2020
Proyectos: Viabilidad y Sostenibilidad Del Adelgazamiento Mediante Tratamiento Intensificado en Pacientes Con Sobrepeso U Obesidad: Mecanismos Neuroendocrinos y Moleculares 
Identificacion E Integracion de Nuevos Factores Moleculares, Fisiologicos y Bioelectricos Determinantes Del Rendimiento en El Ejercicio de Sprint 
Desarrollo y Caracterización Molecular de Un Nuevo Modelo de Precondicionamiento Remoto 
Publicación seriada: Acta Physiologica 
Resumen: The body responds to exercise training by profound adaptations throughout the cardiorespiratory and muscular systems, which may result in improvements in maximal oxygen consumption (VO2 peak) and mitochondrial capacity. By convenience, mitochondrial respiration is often measured at supra-physiological oxygen levels, an approach that ignores any potential regulatory role of mitochondrial affinity for oxygen (p50mito ) at physiological oxygen levels. METHODS: In this study, we examined the p50mito of mitochondria isolated from the Vastus lateralis and Triceps brachii in 12 healthy volunteers before and after a training intervention with seven sessions of sprint interval training using both leg cycling and arm cranking. The changes in p50mito were compared to changes in whole-body VO2 peak. RESULTS: We here show that p50mito is similar in isolated mitochondria from the Vastus (40 ± 3.8 Pa) compared to Triceps (39 ± 3.3) but decreases (mitochondrial oxygen affinity increases) after seven sessions of sprint interval training (to 26 ± 2.2 Pa in Vastus and 22 ± 2.7 Pa in Triceps, both P < .01). The change in VO2 peak modelled from changes in p50mito was correlated to actual measured changes in VO2 peak (R2 = .41, P = .002). CONCLUSION: Together with mitochondrial respiratory capacity, p50mito is a critical factor when measuring mitochondrial function, it can decrease with sprint interval training and should be considered in the integrative analysis of the oxygen cascade from lung to mitochondria.
URI: http://hdl.handle.net/10553/71204
ISSN: 1748-1708
DOI: 10.1111/apha.13463
Fuente: Acta Physiologica [ISSN 1748-1708], v. 229 (3), e13463
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