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Effects of two workload-matched high intensity interval training protocols on regulatory factors associated with mitochondrial biogenesis in the soleus muscle of diabetic rats

Maryam Delfan, Alieh Vahed, David J. Bishop, Raheleh Amadeh Juybari, Ismail Laher, Ayoub Saeidi, Urs Granacher, Hassane Zouhal

2022Frontiers in Physiology12 citationsDOIOpen Access PDF

Abstract

Aims: High intensity interval training (HIIT) improves mitochondrial characteristics. This study compared the impact of two workload-matched high intensity interval training (HIIT) protocols with different work:recovery ratios on regulatory factors related to mitochondrial biogenesis in the soleus muscle of diabetic rats. Materials and methods: Twenty-four Wistar rats were randomly divided into four equal-sized groups: non-diabetic control, diabetic control (DC), diabetic with long recovery exercise [4–5 × 2-min running at 80%–90% of the maximum speed reached with 2-min of recovery at 40% of the maximum speed reached (DHIIT1:1)], and diabetic with short recovery exercise (5–6 × 2-min running at 80%–90% of the maximum speed reached with 1-min of recovery at 30% of the maximum speed reached [DHIIT2:1]). Both HIIT protocols were completed five times/week for 4 weeks while maintaining equal running distances in each session. Results: Gene and protein expressions of PGC-1α, p53, and citrate synthase of the muscles increased significantly following DHIIT1:1 and DHIIT2:1 compared to DC ( p ˂ 0.05). Most parameters, except for PGC-1α protein ( p = 0.597), were significantly higher in DHIIT2:1 than in DHIIT1:1 ( p ˂ 0.05). Both DHIIT groups showed significant increases in maximum speed with larger increases in DHIIT2:1 compared with DHIIT1:1. Conclusion: Our findings indicate that both HIIT protocols can potently up-regulate gene and protein expression of PGC-1α, p53, and CS. However, DHIIT2:1 has superior effects compared with DHIIT1:1 in improving mitochondrial adaptive responses in diabetic rats.

Topics & Concepts

High-intensity interval trainingInterval trainingMitochondrial biogenesisSoleus muscleEndocrinologyInternal medicineEndurance trainingMedicineBiologyMitochondrionSkeletal muscleBiochemistryAdipose Tissue and MetabolismCardiovascular and exercise physiologyExercise and Physiological Responses