RNA-sequencing muscle plasticity to resistance exercise training and disuse in youth and older age
RNA-sequencing muscle plasticity to resistance exercise training and disuse in youth and older age
Maintenance of skeletal muscle mass and function is critical to health and wellbeing
throughout the lifespan. However, disuse through reduced physical activity (e.g., sedentarism),
immobilisation, bed rest or microgravity has significant adverse effects on skeletal muscle health. Conversely, resistance exercise training (RET) induces positive muscle mass and strength adaptations. Several studies have employed microarray technology to understand the transcriptional basis of muscle atrophy and hypertrophy after disuse and RET, respectively, to devise fully effective therapeutic interventions. More recently, rapidly falling costs have seen RNA-sequencing (RNA-seq) increasingly applied in exploring muscle adaptations to RET and disuse. The aim of this review is to summarise the transcriptional responses to RET or disuse measured via RNA-seq in young and older adults. We also highlight analytical considerations to maximise the utility of RNA-seq in the context of skeletal muscle research. The limited number of muscle transcriptional signatures obtained thus far with RNA-seq are generally consistent with those obtained with microarrays. However, RNA-seq may provide additional molecular insight, particularly when combined with data-driven approaches such as correlation network analyses. In this context, it is essential to consider the most appropriate study design parameters as well as bioinformatic and statistical approaches. This will facilitate the use of RNA-seq to better understand the transcriptional regulators of skeletal muscle plasticity in response to increased or decreased use.
164-179
Fernandez-Gonzalo, Rodrigo
ae5a7b85-d6ab-470f-b7c7-9709ea98151b
Willis, Craig R.G.
53d80517-a0a9-4fee-9cae-0870a7458804
Etheridge, Timothy
7e2a840e-e28f-4b54-ba02-dcad0561dfc4
Deane, Colleen S.
3320532e-f411-4ea8-9a14-4a9f248da898
7 December 2022
Fernandez-Gonzalo, Rodrigo
ae5a7b85-d6ab-470f-b7c7-9709ea98151b
Willis, Craig R.G.
53d80517-a0a9-4fee-9cae-0870a7458804
Etheridge, Timothy
7e2a840e-e28f-4b54-ba02-dcad0561dfc4
Deane, Colleen S.
3320532e-f411-4ea8-9a14-4a9f248da898
Fernandez-Gonzalo, Rodrigo, Willis, Craig R.G., Etheridge, Timothy and Deane, Colleen S.
(2022)
RNA-sequencing muscle plasticity to resistance exercise training and disuse in youth and older age.
Physiologia, 2 (4), .
(doi:10.3390/physiologia2040014).
Abstract
Maintenance of skeletal muscle mass and function is critical to health and wellbeing
throughout the lifespan. However, disuse through reduced physical activity (e.g., sedentarism),
immobilisation, bed rest or microgravity has significant adverse effects on skeletal muscle health. Conversely, resistance exercise training (RET) induces positive muscle mass and strength adaptations. Several studies have employed microarray technology to understand the transcriptional basis of muscle atrophy and hypertrophy after disuse and RET, respectively, to devise fully effective therapeutic interventions. More recently, rapidly falling costs have seen RNA-sequencing (RNA-seq) increasingly applied in exploring muscle adaptations to RET and disuse. The aim of this review is to summarise the transcriptional responses to RET or disuse measured via RNA-seq in young and older adults. We also highlight analytical considerations to maximise the utility of RNA-seq in the context of skeletal muscle research. The limited number of muscle transcriptional signatures obtained thus far with RNA-seq are generally consistent with those obtained with microarrays. However, RNA-seq may provide additional molecular insight, particularly when combined with data-driven approaches such as correlation network analyses. In this context, it is essential to consider the most appropriate study design parameters as well as bioinformatic and statistical approaches. This will facilitate the use of RNA-seq to better understand the transcriptional regulators of skeletal muscle plasticity in response to increased or decreased use.
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physiologia-02-00014
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Accepted/In Press date: 2 December 2022
Published date: 7 December 2022
Identifiers
Local EPrints ID: 477909
URI: http://eprints.soton.ac.uk/id/eprint/477909
PURE UUID: 4516ea9f-9756-4a54-bbfb-d64ba2677d3e
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Date deposited: 16 Jun 2023 16:35
Last modified: 17 Mar 2024 04:15
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Author:
Rodrigo Fernandez-Gonzalo
Author:
Craig R.G. Willis
Author:
Timothy Etheridge
Author:
Colleen S. Deane
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