Transcriptomic meta‐analysis of disuse muscle atrophy vs. resistance exercise‐induced hypertrophy in young and older humans

Deane, Colleen S.; Willis, Craig R. G.; Phillips, Bethan E.; Atherton, Philip J.; Harries, Lorna W.; Ames, Ryan M.; Szewczyk, Nathaniel J.; Etheridge, Timothy

doi:10.1002/jcsm.12706

Cited by 23 publications

(30 citation statements)

References 112 publications

(149 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…In addition to dynapenic-abdominal obesity-induced inflammation and insulin resistance, mitochondrial dysfunction is considered a key factor in the development of CKD. 46 , 47 It has been reported that mitochondrial dysfunction in the kidney, including impaired mitochondrial dynamics with increased mitochondrial fragmentation, 48 reduced efficiency of mitochondrial biogenesis with downregulation of peroxisome proliferator-activated receptor-gamma coactivator-1 alpha, 49 and excessive mitochondrial oxidative stress 50 are associated with the development and progression of various kidney diseases, ultimately leading to CKD. In a recent study by Andres-Hernando et al, 51 the authors demonstrated that obese mice with sarcopenia markedly accelerated the progression of CKD and that the decrease in renal function was associated with more severe mitochondrial dysfunction, as indicated by mitochondrial numbers, expression of mitochondrial proteins, and intracellular levels of adenosine triphosphate.…”

Section: Discussionmentioning

confidence: 99%

Dynapenic-abdominal obesity as an independent risk factor for chronic kidney disease in postmenopausal women: a population-based cohort study

et al. 2022

View full text Add to dashboard Cite

show abstract

Section: Discussionmentioning

confidence: 99%

Dynapenic-abdominal obesity as an independent risk factor for chronic kidney disease in postmenopausal women: a population-based cohort study

et al. 2022

View full text Add to dashboard Cite

show abstract

“…Ten days of bed rest has been shown to induce ∼1-kg lean mass loss from the lower extremities and a 16% decline in knee extensor strength in older individuals ( 97 ), which was attributed to a 30% reduction in muscle protein synthesis ( 97 ). A metanalysis of transcriptomic data from studies of disuse or bed rest (≥7 days) revealed significant increases in transcripts involved in protein ubiquitination, immune signaling, and apoptosis and downregulation of genes involved in mitcohondrial organization and metabolic function ( 98 ), some of the pathways also seen in transcriptomics data from studies of frail elders ( 30 ). Other research also highlights bed rest-induced reductions in skeletal muscle protein synthesis that may underpin muscle atrophy and functional losses ( 99 , 100 ).…”

Section: The Physiological Phenotype Of Frailtymentioning

confidence: 99%

Multisystem physiological perspective of human frailty and its modulation by physical activity

Taylor

Greenhaff

Bartlett

et al. 2023

Physiological Reviews

View full text Add to dashboard Cite

"Frailty" is a term used to refer to a state characterised by enhanced vulnerability to, and impaired recovery from, stressors, when compared to a non-frail state, which is increasingly viewed as a loss of resilience. With increasing life expectancy and the associated rise in years spent with physical frailty, there is a need to understand the clinical and physiological features of frailty and the factors driving it. We describe the clinical definitions of age-related frailty and their limitations in allowing us to understand the pathogenesis of this prevalent condition. Given age-related frailty manifests in the form of functional declines such as poor balance, falls and immobility, as an alternative we view frailty from a physiological viewpoint and describe what is known of the organ-based components of frailty, including adiposity, the brain, and neuromuscular, skeletal muscle, immune and cardiovascular systems, as individual systems and as components in multisystem dysregulation. By doing so we aim to highlight current understanding of the physiological phenotype of frailty and reveal key knowledge gaps and potential mechanistic drivers of the trajectory to frailty. We also review the studies in humans that have intervened with exercise to reduce frailty. We conclude that more longitudinal and interventional clinical studies are required in older adults. Such observational studies should interrogate the progression from a non-frail to a frail state, assessing individual elements of frailty to produce a deep physiological phenotype of the syndrome. The findings will identify mechanistic drivers of frailty and allow targetted interventions to diminish frailty progression.

show abstract

“…There are also several pathways and factors that contribute to the pathoetiology of muscle wasting and diseases. Although voluntary and forced muscle inactivity do not necessarily mirror contractile engagement ( 673 ), some of these could play a role in exercise training adaptation. For example, the levels of myostatin, which rise in several pathological states ( 15 ), are reduced by exercise ( 674 ), and the absence of myostatin signaling may be an important contributor to training adaptation.…”

Section: Acute Molecular Mechanisms Underpinning Endurance- and Resis...mentioning

confidence: 99%

The molecular athlete: exercise physiology from mechanisms to medals

Furrer

Hawley

Handschin

2023

Physiological Reviews

View full text Add to dashboard Cite

Human skeletal muscle demonstrates remarkable plasticity, adapting to numerous external stimuli including the habitual level of contractile loading. Accordingly, muscle function and exercise capacity encompass a broad spectrum, from inactive individuals with low levels of endurance and strength, to elite athletes who produce prodigious performances underpinned by pleiotropic training-induced muscular adaptations. Our current understanding of the signal integration, interpretation and output coordination of the cellular and molecular mechanisms that govern muscle plasticity across this continuum is incomplete. As such, training methods and their application to elite athletes largely rely on a "trial and error" approach with the experience and practices of successful coaches and athletes often providing the bases for "post hoc" scientific enquiry and research. This review provides a synopsis of the morphological and functional changes along with the molecular mechanisms underlying exercise adaptation to endurance- and resistance-based training. These traits are placed in the context of innate genetic and inter-individual differences in exercise capacity and performance, with special considerations given to the ageing athletes. Collectively, we provide a comprehensive overview of skeletal muscle plasticity in response to different modes of exercise, and how such adaptations translate from "molecules to medals".

show abstract

Transcriptomic meta‐analysis of disuse muscle atrophy vs. resistance exercise‐induced hypertrophy in young and older humans

Cited by 23 publications

References 112 publications

Dynapenic-abdominal obesity as an independent risk factor for chronic kidney disease in postmenopausal women: a population-based cohort study

Dynapenic-abdominal obesity as an independent risk factor for chronic kidney disease in postmenopausal women: a population-based cohort study

Multisystem physiological perspective of human frailty and its modulation by physical activity

The molecular athlete: exercise physiology from mechanisms to medals

Contact Info

Product

Resources

About