๐ค Authors: Jelle C B C de Jong, Tom S O Jameson, Rob C Andrews, Mandy V Dunlop, Doaa R Abdelrahman, Andrew J Murton, Martien P M Caspers, Nicole Worms, Anita van Nieuwkoop, Nanda Keijzer, Qihan Cheng, Bruno Guigas, Esther van Duijn, Wouter H J Vaes, Arie G Nieuwenhuizen, Jaap Keijer, Benjamin T Wall, Lars Verschuren, Francis B Stephens, Anita M van den Hoek, Marlou L Dirks
Anabolic Effects of Salbutamol Are Lost Upon Immobilization.
<p><b>BACKGROUND</b></p><p>Periods of muscle disuse occur during hospitalization, illness or the recovery from (sports) injury and lead to a rapid loss of muscle mass and the development of insulin resistance. Salbutamol is a fast-acting ฮฒ2-adrenoreceptor agonist that may improve muscle protein synthesis and insulin sensitivity during experimental muscle disuse and thereby attenuate or preserve muscle mass; however, this has not yet been tested as a standalone intervention.</p><p><b>METHODS</b></p><p>Effects of salbutamol treatment on muscle metabolism were studied in a randomized controlled trial using a human forearm immobilization model (nโ=โ20).
Before and after immobilization for 2โdays, we measured whole-body glucose disposal, forearm glucose uptake and amino acid kinetics during fasting and hyperinsulinaemic-hyperaminoacidaemic-euglycemic clamp conditions using forearm balance and L-[ring- 2H 5]-phenylalanine infusion. Underlying mechanistic effects were studied as well using a complementary murine hindleg immobilization model (2โweeks) using tracer approaches (i.e., deuterated water and 14C-labelled phenylalanine) and molecular analyses (e.g., RNA-seq and western blot).</p><p><b>RESULTS</b></p><p>In humans, salbutamol enhanced insulin-stimulated glucose disposal on the whole-body level (+21%, pโ=โ0.010) but was unable to ameliorate the immobilization-induced decrease in forearm glucose uptake.
Salbutamol decreased the efflux of amino acids from the immobilized forearm, indicating increased muscle protein synthesis and/or inhibition of breakdown. However, this did not affect the immobilization-induced impairment of amino acid net balance in both postabsorptive (-250%) and clamp conditions (-261%, both pโ=โ0.031).
In agreement, in mice, salbutamol increased cumulative muscle protein synthesis (+0.87%, pโ<โ0.001) but did not result in a net gain of muscle mass upon immobilization due to an accompanying increase in muscle protein turnover (+13%, pโ<โ0.001). Molecular analyses revealed immobilization inhibited salbutamol's effects on the muscle transcriptome, specifically the muscle contraction pathway (-2.1 normalized enrichment score, pโ<โ0.001).</p><p><b>CONCLUSIONS</b></p><p>Salbutamol increases muscle mass and glucose uptake, although these effects are limited to active but not inactive muscles.
This demonstrates that the mechanism of action and efficacy of ฮฒ2-adrenoreceptor signalling are hampered upon immobilization, which offers potential for a combined treatment intervention of reintroducing muscle contraction and salbutamol administration to improve muscle mass and clinical outcomes during episodes of physical inactivity.</p>
