Lee Tabrizian scite author profile

Lee Tabrizian

2Publications

4Citation Statements Received

62Citation Statements Given

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University of Copenhagen

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Physical activity impacts resting skeletal muscle myosin conformation and lowers its ATP consumption

Lewis

Tabrizian

Nielsen

et al. 2023

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It has recently been established that myosin, the molecular motor protein, is able to exist in two conformations in relaxed skeletal muscle. These conformations are known as the super-relaxed (SRX) and disordered-relaxed (DRX) states and are finely balanced to optimize ATP consumption and skeletal muscle metabolism. Indeed, SRX myosins are thought to have a 5- to 10-fold reduction in ATP turnover compared with DRX myosins. Here, we investigated whether chronic physical activity in humans would be associated with changes in the proportions of SRX and DRX skeletal myosins. For that, we isolated muscle fibers from young men of various physical activity levels (sedentary, moderately physically active, endurance-trained, and strength-trained athletes) and ran a loaded Mant-ATP chase protocol. We observed that in moderately physically active individuals, the amount of myosin molecules in the SRX state in type II muscle fibers was significantly greater than in age-matched sedentary individuals. In parallel, we did not find any difference in the proportions of SRX and DRX myosins in myofibers between highly endurance- and strength-trained athletes. We did however observe changes in their ATP turnover time. Altogether, these results indicate that physical activity level and training type can influence the resting skeletal muscle myosin dynamics. Our findings also emphasize that environmental stimuli such as exercise have the potential to rewire the molecular metabolism of human skeletal muscle through myosin.

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Preponderant Myosin Super-Relaxed State In Skeletal Muscle From Endurance Athletes

Lewis

Tabrizian

Nielsen

et al. 2022

Preprint

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It has recently been established that myosin, the molecular motor protein, is able to exist in two conformations in relaxed skeletal muscle. These conformations are known as super-relaxed (SRX) and disordered-relaxed (DRX) states and are finely balanced to optimize skeletal muscle metabolism. Indeed, SRX myosins are thought to have a 10-fold reduction in ATP turnover compared to DRX myosins. Here, we investigated whether chronic physical activity in humans would be associated with changes in the proportions of SRX and DRX skeletal myosins. For that, we isolated muscle fibres from various athletic and sedentary populations and ran a loaded Mant-ATP chase proto-col. We observed that, in endurance-trained athletes, the amounts of myosin molecules in the SRX state was significantly greater than in age-matched sedentary individuals or than in strength athletes. To further assess whether this change would have an impact on the potency of a SRX-inducing pharmacological compound, Mavacamten, we performed similar analyses as above with and without the drug in muscle fibres from endurance athletes. Surprisingly, we found that 0.3 micromolar of Mavacamten had only marginal effects. Altogether, our results indicate that chronic endurance training-status influences resting skeletal myosin conformations, and Mavacamten potency. Our findings also emphasize that environmental stimuli such as exercise can re-wire the molecular metabolism of human skeletal muscle through myosin.

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Lee Tabrizian

Physical activity impacts resting skeletal muscle myosin conformation and lowers its ATP consumption

Preponderant Myosin Super-Relaxed State In Skeletal Muscle From Endurance Athletes

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