Andrew J Murton1, Paul L Greenhaff. 1. School of Biomedical Sciences, The University of Nottingham, Queen's Medical Centre, Nottingham, UK. andrew.murton@nottingham.ac.uk
Abstract
PURPOSE OF REVIEW: The preservation of skeletal muscle mass is central to maintaining mobility and quality of life with aging and also impacts on our capacity to recover from illness. However, our understanding of the processes that regulate muscle mass in humans during exercise, chronic disuse and rehabilitation remains unclear. This brief review aims to highlight some of the more recent and important findings concerning these physiological stimuli. RECENT FINDINGS: Although several studies have detailed the molecular events that occur following an acute bout of resistance exercise, a paucity of data appears to remain concerning the molecular and signaling events that underpin resistance exercise training. Reports of increased transcripts for inflammatory proteins following eccentric but not concentric exercise could represent the stimulus for the instigation of structural adaptations that occur following intense muscle lengthening contractions. Studies investigating processes underlying disuse-induced muscle atrophy provide initial evidence to support the notion that transient increases in muscle protein degradation occur following the onset of muscle disuse in humans. SUMMARY: The need for further studies to improve our basic understanding of muscle-associated processes in humans remains, particularly in relation to the temporal changes in muscle processes that occur during resistance training.
PURPOSE OF REVIEW: The preservation of skeletal muscle mass is central to maintaining mobility and quality of life with aging and also impacts on our capacity to recover from illness. However, our understanding of the processes that regulate muscle mass in humans during exercise, chronic disuse and rehabilitation remains unclear. This brief review aims to highlight some of the more recent and important findings concerning these physiological stimuli. RECENT FINDINGS: Although several studies have detailed the molecular events that occur following an acute bout of resistance exercise, a paucity of data appears to remain concerning the molecular and signaling events that underpin resistance exercise training. Reports of increased transcripts for inflammatory proteins following eccentric but not concentric exercise could represent the stimulus for the instigation of structural adaptations that occur following intense muscle lengthening contractions. Studies investigating processes underlying disuse-induced muscle atrophy provide initial evidence to support the notion that transient increases in muscle protein degradation occur following the onset of muscle disuse in humans. SUMMARY: The need for further studies to improve our basic understanding of muscle-associated processes in humans remains, particularly in relation to the temporal changes in muscle processes that occur during resistance training.
Authors: Christopher L Mendias; Evan B Lynch; Max E Davis; Elizabeth R Sibilsky Enselman; Julie A Harning; Paul D Dewolf; Tarek A Makki; Asheesh Bedi Journal: Am J Sports Med Date: 2013-06-05 Impact factor: 6.202
Authors: Anders Nedergaard; Jakob G Jespersen; Jessica Pingel; Britt Christensen; Nicholas Sroczynski; Henning Langberg; Michael Kjaer; Peter Schjerling Journal: BMC Res Notes Date: 2012-03-28
Authors: A R Santos; M T Neves; B Gualano; G C Laurentino; A H Lancha; C Ugrinowitsch; F R Lima; M S Aoki Journal: Biol Sport Date: 2014-04-05 Impact factor: 2.806
Authors: Justin P Hardee; Brittany R Counts; Song Gao; Brandon N VanderVeen; Dennis K Fix; Ho-Jin Koh; James A Carson Journal: J Cachexia Sarcopenia Muscle Date: 2017-12-07 Impact factor: 12.910
Authors: Hannah Crossland; Sarah Skirrow; Zudin A Puthucheary; Dumitru Constantin-Teodosiu; Paul L Greenhaff Journal: J Physiol Date: 2018-08-18 Impact factor: 5.182