TY - JOUR
T1 - Mitochondrial adaptations to high intensity interval training in older females and males
AU - Chrois, Karoline Maise
AU - Dohlmann, Tine Lovso
AU - Sogaard, Ditte
AU - Hansen, Camilla Vestergaard
AU - Dela, Flemming
AU - Helge, Jorn Wulff
AU - Larsen, Steen
PY - 2020/1/2
Y1 - 2020/1/2
N2 - Introduction: High intensity interval training (HIIT) has shown to be as effective as moderate intensity endurance training to improve metabolic health. However, the current knowledge on the effect of HIIT in older individuals is limited and it is uncertain whether the adaptations are sex specific. The aim was to investigate effects of HIIT on mitochondrial respiratory capacity and mitochondrial content in older females and males. Methods: Twenty-two older sedentary males (n = 11) and females (n = 11) completed 6 weeks of supervised HIIT 3 days per week. The training consisted of 5 x 1 min cycling (124 +/- 3% of max power output at session 2-6 and 135 +/- 3% of max power output at session 7-20) interspersed by 11/2 min recovery. Before the intervention and 72 h after last training session a muscle biopsy was obtained and mitochondrial respiratory capacity, citrate synthase activity and proteins involved in mitochondria metabolism were assessed. Furthermore, body composition and x2a52;O(2)max were measured. Results: x2a52;O(2)max increased and body fat percentage decreased after HIIT in both sexes (p < 0.05). In addition, CS activity and protein content of MnSOD and complex I-V increased in both sexes. Coupled and uncoupled mitochondrial respiratory capacity increased only in males. Mitochondrial respiratory capacity normalised to CS activity (intrinsic mitochondrial respiratory capacity) did not change following HIIT. Conclusion: HIIT induces favourable adaptions in skeletal muscle in older subjects by increasing mitochondrial content, which may help to maintain muscle oxidative capacity and slow down the process of sarcopenia associated with ageing.
AB - Introduction: High intensity interval training (HIIT) has shown to be as effective as moderate intensity endurance training to improve metabolic health. However, the current knowledge on the effect of HIIT in older individuals is limited and it is uncertain whether the adaptations are sex specific. The aim was to investigate effects of HIIT on mitochondrial respiratory capacity and mitochondrial content in older females and males. Methods: Twenty-two older sedentary males (n = 11) and females (n = 11) completed 6 weeks of supervised HIIT 3 days per week. The training consisted of 5 x 1 min cycling (124 +/- 3% of max power output at session 2-6 and 135 +/- 3% of max power output at session 7-20) interspersed by 11/2 min recovery. Before the intervention and 72 h after last training session a muscle biopsy was obtained and mitochondrial respiratory capacity, citrate synthase activity and proteins involved in mitochondria metabolism were assessed. Furthermore, body composition and x2a52;O(2)max were measured. Results: x2a52;O(2)max increased and body fat percentage decreased after HIIT in both sexes (p < 0.05). In addition, CS activity and protein content of MnSOD and complex I-V increased in both sexes. Coupled and uncoupled mitochondrial respiratory capacity increased only in males. Mitochondrial respiratory capacity normalised to CS activity (intrinsic mitochondrial respiratory capacity) did not change following HIIT. Conclusion: HIIT induces favourable adaptions in skeletal muscle in older subjects by increasing mitochondrial content, which may help to maintain muscle oxidative capacity and slow down the process of sarcopenia associated with ageing.
KW - High intensity interval training (HIIT)
KW - skeletal muscle mitochondria
KW - respiratory capacity
KW - exercise
KW - ageing
U2 - 10.1080/17461391.2019.1615556
DO - 10.1080/17461391.2019.1615556
M3 - Journal article
C2 - 31145037
SN - 1746-1391
JO - European Journal of Sport Science
JF - European Journal of Sport Science
ER -