Martin Gram scite author profile

Key pointsr Currently, it is not known whether impaired mitochondrial function contributes to human ageing or whether potential impairments in mitochondrial function with age are secondary to physical inactivity.r The present study investigated mitochondrial respiratory function and reactive oxygen species emission at a predefined membrane potential in young and older men subjected to 2 weeks of one-leg immobilization followed by 6 weeks of aerobic cycle training.r Immobilization increased reactive oxygen species emission and decreased ATP generating respiration. Subsequent aerobic training reversed these effects.r By contrast, age had no effect on the measured variables. r The results of the present study support the notion that increased mitochondrial reactive oxygen species production mediates the detrimental effects seen after physical inactivity and that ageing per se does not cause mitochondrial dysfunction.Abstract Mitochondrial dysfunction, defined as increased oxidative stress and lower capacity for energy production, may be seen with ageing and may cause frailty, or it could be that it is secondary to physical inactivity. We studied the effect of 2 weeks of one-leg immobilization followed by 6 weeks of supervised cycle training on mitochondrial function in 17 young (mean ± SEM: 23 ± 1 years) and 15 older (68 ± 1 years) healthy men. Submaximal H 2 O 2 emission and respiration were measured simultaneously at a predefined membrane potential in isolated mitochondria from skeletal muscle using two protocols: pyruvate + malate (PM) and succinate + rotenone (SR). This allowed measurement of leak and ATP generating respiration from which the coupling efficiency can be calculated. The protein content of the anti-oxidants manganese superoxide dismuthase (MnSOD), CuZn superoxide dismuthase, catalase and gluthathione peroxidase 1 was measured by western blotting. Immobilization decreased ATP generating respiration using PM and increased H 2 O 2 emission using both PM and SR similarly in young and older men. Both were restored to baseline after the training period. Furthermore, MnSOD and catalase content increased with endurance training. The young men had a higher leak respiration at inclusion using PM and a higher membrane potential in State 3 using both substrate combinations. Collectively, the findings of the present study support the notion that increased mitochondrial reactive oxygen species mediates the detrimental effects seen after physical inactivity. Age, on the other hand, was not associated with impairments in anti-oxidant protein levels, mitochondrial respiration or H 2 O 2 emission using either protocol.

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Six weeksâ€™ aerobic retraining after two weeksâ€™ immobilization restores leg lean mass and aerobic capacity but does not fully rehabilitate leg strenght in young and older men

Vigelsø¹,

Gram²,

Wiuff³

et al. 2015

J Rehabil Med

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The best approach: Homogenization or manual permeabilization of human skeletal muscle fibers for respirometry?

Larsen

Kraunsøe

Gram

et al. 2014

Analytical Biochemistry

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A novel method for determining human ex vivo submaximal skeletal muscle mitochondrial function

Hey-Mogensen

Gram

Jensen

et al. 2015

The Journal of Physiology

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Key pointsr The present study utilized a novel method aiming to investigate mitochondrial function in human skeletal muscle at submaximal levels and at a predefined membrane potential.r The effect of age and training status was investigated using a cross-sectional design. r Ageing was found to be related to decreased leak regardless of training status. r Increased training status was associated with increased mitochondrial hydrogen peroxide emission.Abstract Despite numerous studies, there is no consensus about whether mitochondrial function is altered with increased age. The novelty of the present study is the determination of mitochondrial function at submaximal activity rates, which is more physiologically relevant than the ex vivo functionality protocols used previously. Muscle biopsies were taken from 64 old or young male subjects (aged 60-70 or 20-30 years). Aged subjects were recruited as trained or untrained. Muscle biopsies were used for the isolation of mitochondria and subsequent measurements of DNA repair, anti-oxidant capacity and mitochondrial protein levels (complexes I-V). Mitochondrial function was determined by simultaneous measurement of oxygen consumption, membrane potential and hydrogen peroxide emission using pyruvate + malate (PM) or succinate + rotenone (SR) as substrates. Proton leak was lower in aged subjects when determined at the same membrane potential and was unaffected by training status. State 3 respiration was lower in aged untrained subjects. This effect, however, was alleviated in aged trained subjects. H 2 O 2 emission with PM was higher in aged subjects, and was exacerbated by training, although it was not changed when using SR. However, with a higher manganese superoxide dismuthase content, the trained aged subjects may actually have lower or similar mitochondrial superoxide emission compared to the untrained subjects. We conclude that ageing and the physical activity level in aged subjects are both related to changes in the intrinsic functionality of the mitochondrion in skeletal muscle. Both of these changes could be important factors in determining the metabolic health of the aged skeletal muscle cell.

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Wool keratin – A novel dietary protein source: Nutritional value and toxicological assessment

et al. 2022

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Relationships between human vitality and mitochondrial respiratory parameters, reactive oxygen species production and dNTP levels in peripheral blood mononuclear cells

Maynard

Keijzers²,

Gram³

et al. 2013

Aging

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Low vitality (a component of fatigue) in middle-aged and older adults is an important complaint often identified as a symptom of a disease state or side effect of a treatment. No studies to date have investigated the potential link between dysfunctional mitochondrial ATP production and low vitality. Therefore, we measured a number of cellular parameters related to mitochondrial activity in peripheral blood mononuclear cells (PBMCs) isolated from middle-aged men, and tested for association with vitality. These parameters estimate mitochondrial respiration, reactive oxygen species (ROS) production, and deoxyribonucleotide (dNTP) balance in PBMCs. The population was drawn from the Metropolit cohort of men born in 1953. Vitality level was estimated from the Medical Outcomes Study Short Form 36 (SF-36) vitality scale. We found that vitality score had no association with any of the mitochondrial respiration parameters. However, vitality score was inversely associated with cellular ROS production and cellular deoxythymidine triphosphate (dTTP) levels and positively associated with deoxycytidine triphosphate (dCTP) levels. We conclude that self-reported persistent low vitality is not associated with specific aspects of mitochondrial oxidative phosphorylation capacity in PBMCs, but may have other underlying cellular dysfunctions that contribute to dNTP imbalance and altered ROS production.

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Immobilization increases interleukin‐6, but not tumour necrosis factor‐α, release from the leg during exercise in humans

Reihmane

Vigelsø

Gram

et al. 2013

Experimental Physiology

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New Findings r What is the central question of this study?Does physical inactivity influence the exercise-induced release of tumour necrosis factor-α and interleukin-6 in healthy humans? In young, healthy subjects, we immobilized one leg for 2 weeks, followed by 45 min two-legged exercise where one leg served as the control and the other was the previously inactive leg. r What is the main finding and its importance?We found that prior physical inactivity enhances interleukin-6 release during exercise, and it is released in the blood from the legs during exercise much faster than previously known. However, tumour necrosis factor-α is not released in the blood with exercise, even from a previously inactive leg.Data on interleukin-6 (IL-6) and tumour necrosis factor-α (TNF-α) release during acute exercise are not conclusive, and information is lacking about the impact of physical inactivity. Some studies have shown an increase, but others report no changes in IL-6 and TNF-α release during exercise. We have now studied the temporal relationship of leg IL-6 and TNF-α release before and during isolated two-legged exercise after 14 days of one-leg immobilization (IM) while the other leg served as the control (CON) leg. Fifteen healthy male subjects (mean ± SEM age, 23 ± 1 years; body mass index, 23.6 ± 0.7 kg m −2 ; and maximal oxygen uptake, 46.8 ± 1.4 ml kg −1 min −1 ) performed 45 min of two-legged dynamic knee-extensor exercise at 19.6 ± 0.8 W. Arterial and femoral venous blood samples from the CON and the IM leg were collected every 15 min during exercise, and leg blood flow was measured with Doppler ultrasound. The arterial plasma IL-6 concentration increased (P < 0.05) with exercise (rest, 1.3 ± 0.1 pg ml −1 ; 15 min, 1.9 ± 0.2 pg ml −1 ; 30 min, 2.4 ± 0.2 pg ml −1 ; and 45 min, 3.1 ± 0.3 pg ml −1 ). Interleukin-6 release occurred after 15 min of exercise, and the release from the IM leg was significantly greater compared with the CON leg after 45 min (1114 ± 152 versus 606 ± 14 pg min −1 , respectively, P < 0.05). Tumour necrosis factor-α release did not differ between the CON and the IM leg, and arterial concentrations remained unchanged during exercise (P > 0.05). In conclusion, prior immobilization enhances release of IL-6 from the leg during exercise at a moderate workload, and the release is already present in the early phase of exercise. Neither immobilization nor exercise had an effect on TNF-α release in the working legs.

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Martin Gram

Two weeks of one-leg immobilization decreases skeletal muscle respiratory capacity equally in young and elderly men

Skeletal muscle mitochondrial H₂O₂ emission increases with immobilization and decreases after aerobic training in young and older men

Six weeksâ€™ aerobic retraining after two weeksâ€™ immobilization restores leg lean mass and aerobic capacity but does not fully rehabilitate leg strenght in young and older men

The best approach: Homogenization or manual permeabilization of human skeletal muscle fibers for respirometry?

A novel method for determining human ex vivo submaximal skeletal muscle mitochondrial function

Wool keratin – A novel dietary protein source: Nutritional value and toxicological assessment

Relationships between human vitality and mitochondrial respiratory parameters, reactive oxygen species production and dNTP levels in peripheral blood mononuclear cells

Immobilization increases interleukin‐6, but not tumour necrosis factor‐α, release from the leg during exercise in humans

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Martin Gram

Two weeks of one-leg immobilization decreases skeletal muscle respiratory capacity equally in young and elderly men

Skeletal muscle mitochondrial H2O2 emission increases with immobilization and decreases after aerobic training in young and older men

Six weeksâ€™ aerobic retraining after two weeksâ€™ immobilization restores leg lean mass and aerobic capacity but does not fully rehabilitate leg strenght in young and older men

The best approach: Homogenization or manual permeabilization of human skeletal muscle fibers for respirometry?

A novel method for determining human ex vivo submaximal skeletal muscle mitochondrial function

Wool keratin – A novel dietary protein source: Nutritional value and toxicological assessment

Relationships between human vitality and mitochondrial respiratory parameters, reactive oxygen species production and dNTP levels in peripheral blood mononuclear cells

Immobilization increases interleukin‐6, but not tumour necrosis factor‐α, release from the leg during exercise in humans

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Skeletal muscle mitochondrial H₂O₂ emission increases with immobilization and decreases after aerobic training in young and older men