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Two weeks of high-intensity interval training increases skeletal muscle mitochondrial respiration via complex-specific remodeling in sedentary humans

Philip M. Batterson, Erin McGowan, Harrison D. Stierwalt, Sarah E. Ehrlicher, Sean A. Newsom, Matthew M. Robinson

2023Journal of Applied Physiology24 citationsDOI

Abstract

Aerobic training stimulates mitochondrial metabolism in skeletal muscle that is linked to improvements to whole body fuel metabolism. The mechanisms driving changes to the quantity and quality (function per unit) of mitochondria are less known. We used seven sessions of high-intensity interval training (HIIT) to determine functional changes and mechanisms of mitochondrial remodeling in skeletal muscle. HIIT increased mitochondrial respiration per mass for fatty acids, complex I, and complex II substrates. HIIT-induced remodeling pathways including gene transcripts for mitochondrial respiration (via RNA sequencing of muscle tissue) and proteins related to complex I respiration. We conclude that an early feature of aerobic training is increased mitochondrial protein quality via improved respiration and induction of mitochondrial transcriptional patterns.

Topics & Concepts

High-intensity interval trainingSkeletal muscleBiologyInternal medicineMitochondrionEndocrinologyInterval trainingCellular respirationRespirationCitrate synthaseCell biologyBiochemistryMedicineAnatomyEnzymeAdipose Tissue and MetabolismMuscle metabolism and nutritionMitochondrial Function and Pathology
Two weeks of high-intensity interval training increases skeletal muscle mitochondrial respiration via complex-specific remodeling in sedentary humans | Litcius