Altered muscle satellite cell activation following 16 wk of resistance training in young men

Nederveen, Joshua P.; Snijders, Tim; Joanisse, Sophie; Wavell, Christopher; Mitchell, Cameron J.; Johnston, Leeann M.; Baker, Steven K.; Phillips, Stuart M.; Parise, Gianni

doi:10.1152/ajpregu.00221.2016

Cited by 53 publications

(64 citation statements)

References 47 publications

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“…Resistance training induces angiogenesis to support hypertrophy but on its own does not normally increase capillary density (Nederveen et al, 2017). The direct inhibitors of VEGF, miR-15a/16 were however, upregulated in the powerlifters, which may limit angiogenesis in powerlifters.…”

Section: Discussionmentioning

confidence: 99%

MicroRNAs in Muscle: Characterizing the Powerlifter Phenotype

et al. 2017

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Powerlifters are the epitome of muscular adaptation and are able to generate extreme forces. The molecular mechanisms underpinning the significant capacity for force generation and hypertrophy are not fully elucidated. MicroRNAs (miRs) are short non-coding RNA sequences that control gene expression via promotion of transcript breakdown and/or translational inhibition. Differences in basal miR expression may partially account for phenotypic differences in muscle mass and function between powerlifters and untrained age-matched controls. Muscle biopsies were obtained from m. vastus lateralis of 15 national level powerlifters (25.1 ± 5.8 years) and 13 untrained controls (24.1 ± 2.0 years). The powerlifters were stronger than the controls (isokinetic knee extension at 60°/s: 307.8 ± 51.6 Nm vs. 211.9 ± 41.9 Nm, respectively P < 0.001), and also had larger muscle fibers (type I CSA 9,122 ± 1,238 vs. 4,511 ± 798 μm2 p < 0.001 and type II CSA 11,100 ± 1,656 vs. 5,468 ± 1,477 μm2 p < 0.001). Of the 17 miRs species analyzed, 12 were differently expressed (p < 0.05) between groups with 7 being more abundant in powerlifters and five having lower expression. Established transcriptionally regulated miR downstream gene targets involved in muscle mass regulation, including myostatin and MyoD, were also differentially expressed between groups. Correlation analysis demonstrates the abundance of eight miRs was correlated to phenotype including peak strength, fiber size, satellite cell abundance, and fiber type regardless of grouping. The unique miR expression profiles between groups allow for categorization of individuals as either powerlifter or healthy controls based on a five miR signature (miR-126, -23b, -16, -23a, -15a) with considerable accuracy (100%). Thus, this unique miR expression may be important to the characterization of the powerlifter phenotype.

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Section: Discussionmentioning

confidence: 99%

MicroRNAs in Muscle: Characterizing the Powerlifter Phenotype

et al. 2017

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“…; Nederveen et al . ) with appreciable expansion occurring by 24 h and peaking 72 h post‐stimulus (Snijders et al . ).…”

Section: Introductionmentioning

confidence: 99%

“…; Nederveen et al . , ). Consequently, it has been proposed that SC content (Emslie‐Smith & Engel, ; Christov et al .…”

Section: Introductionmentioning

confidence: 99%

The influence of capillarization on satellite cell pool expansion and activation following exercise‐induced muscle damage in healthy young men

Nederveen

Joanisse

Snijders

et al. 2018

The Journal of Physiology

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Factors that determine the skeletal muscle satellite cell (SC) response remain incompletely understood. It is known, however, that SC activation status is closely related to the anatomical relationship between SCs and muscle capillaries. We investigated the impact of muscle fibre capillarization on the expansion and activation status of SCs following a muscle-damaging exercise protocol in healthy young men. Twenty-nine young men (21 ± 0.5 years) performed 300 unilateral eccentric contractions (180 deg s ) of the knee extensors. Percutaneous muscle biopsies from the vastus lateralis and blood samples from the antecubital vein were taken prior to (Pre) exercise and at 6, 24, 72 and 96 h of post-exercise recovery. A comparison was made between subjects who had a relative low mixed muscle capillary-to-fibre perimeter exchange index (CFPE; Low group) and high mixed muscle CFPE index (High group) at baseline. Type I and type II muscle fibre size, myonuclear content, capillarization, and SC response were determined via immunohistochemistry. Overall, there was a significant correlation (r = 0.39; P < 0.05) between the expansion of SC content (change in total Pax7 cells/100 myofibres) 24 h following eccentric exercise and mixed muscle CFPE index. There was a greater increase in activated SCs (MyoD /Pax7 cells) in the High as compared to the Low CFPE group 72 h following eccentric exercise (P < 0.05). The current study provides further evidence that muscle fibre capillarization may play an important role in the activation and expansion of the SC pool during the process of skeletal muscle repair.

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“…However, SC in older muscle are located at a greater distance from capillaries than in young individuals, which may impair their biological function and, ultimately, the plasticity of skeletal muscle with age . Moreover, the age‐related decrease in muscle capillarization may impair nutrient delivery to skeletal muscle, which could be a contributing factor to both an impairment in muscle metabolism and SC function …”

Section: Introductionmentioning

confidence: 99%

Low‐load resistance exercise during inactivity is associated with greater fibre area and satellite cell expression in older skeletal muscle

Moore

Kelly

Devries

et al. 2018

J cachexia sarcopenia muscle

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BackgroundAge‐related sarcopenia is accelerated by physical inactivity. Low‐load resistance exercise (LLRE) counters inactivity‐induced muscle atrophy in older adults, but changes in muscle fibre morphology are unstudied. We aimed to determine the impact of LLRE during short‐term inactivity (step‐reduction) on muscle fibre size and capillarity as well as satellite cell (SC) content in older skeletal muscle.MethodsFourteen older (~71 years) male adults underwent 14 days of step reduction (<1500 steps/day) while performing six sessions of LLRE (~30% maximal strength) with one leg (SR + EX) while the contralateral leg served as an untrained control (SR). Seven healthy ambulatory age‐matched male adults (~69 years) served as a comparator group (COM). Muscle biopsies were taken from the vastus lateralis after 14 days, and immunohistochemical analysis was performed to determine muscle fibre cross‐sectional area (CSA), myonuclear content, SC content (PAX7+ cells), and total (C:F) and fibre type‐specific (C:Fi) capillary‐to‐fibre ratios.ResultsType I and II fibre CSA was greater in SR + EX compared with SR. Whereas there were no differences across fibre types between SR + EX and CON, type II fibre CSA was significantly lower in SR compared with COM. Type II myonuclear domain was greater in SR + EX compared with COM and SR. Pax7+ cells associated with type I and II fibres were lower in SR compared with SR + EX. Type II PAX7+ cells were also lower in SR compared with COM with a similar trend for type I fibres. There were trends for a lower C:Fi in SR compared with SR + EX for both fibre types with no differences for each compared with COM.ConclusionsMinimal LLRE during a period of decreased physical activity is associated with greater muscle fibre CSA, SC content, and capillarization. These results support the use of LLRE as an effective countermeasure to inactivity‐induced alterations in muscle morphology with age.

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Altered muscle satellite cell activation following 16 wk of resistance training in young men

Cited by 53 publications

References 47 publications

MicroRNAs in Muscle: Characterizing the Powerlifter Phenotype

MicroRNAs in Muscle: Characterizing the Powerlifter Phenotype

The influence of capillarization on satellite cell pool expansion and activation following exercise‐induced muscle damage in healthy young men

Low‐load resistance exercise during inactivity is associated with greater fibre area and satellite cell expression in older skeletal muscle

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