2020
DOI: 10.1007/s00421-020-04408-3
|View full text |Cite
|
Sign up to set email alerts
|

Resistance training upregulates skeletal muscle Na+, K+-ATPase content, with elevations in both α1 and α2, but not β isoforms

Abstract: The Na + ,K + -ATPase (NKA) is important in regulating trans-membrane ion gradients, cellular excitability and muscle function. We investigated the effects of resistance training in healthy young adults on the adaptability of NKA content and of the specific α and β isoforms in human skeletal muscle. MethodsTwenty-one healthy young males (22.9 ±4.6 y; 1.80 ±0.70 m, 85.1 ±17.8 kg, mean±SD) underwent 7 weeks of resistance training, training three time per week (RT, n=16) or control (CON, n=5). The training progra… Show more

Help me understand this report

Search citation statements

Order By: Relevance

Paper Sections

Select...
1
1
1

Citation Types

0
3
0

Year Published

2021
2021
2024
2024

Publication Types

Select...
4

Relationship

1
3

Authors

Journals

citations
Cited by 4 publications
(3 citation statements)
references
References 42 publications
0
3
0
Order By: Relevance
“…In healthy humans, 12 studies from 1990 to 2017 investigated the effects of training on NKA c in m. vastus lateralis , with consistent findings that endurance, high intensity and resistance training induced an 8–25% upregulation of NKA c , which was unrelated to mean training intensity, cumulative training time or training duration (Wyckelsma et al 2019 ) and a similar upregulation in NKA c after resistance training was recently confirmed (Altarawneh et al 2020 ). In chronic heart failure patients, there was no effect of training on m. vastus lateralis NKA c (Green et al 2001 ), whilst in contrast, in young patients with Type I diabetes, NKA c was increased by 8% after sprint training (Harmer et al 2006 ).…”
Section: Nka Content In Skeletal Muscle Including the Effects Of Insu...mentioning
confidence: 75%
See 1 more Smart Citation
“…In healthy humans, 12 studies from 1990 to 2017 investigated the effects of training on NKA c in m. vastus lateralis , with consistent findings that endurance, high intensity and resistance training induced an 8–25% upregulation of NKA c , which was unrelated to mean training intensity, cumulative training time or training duration (Wyckelsma et al 2019 ) and a similar upregulation in NKA c after resistance training was recently confirmed (Altarawneh et al 2020 ). In chronic heart failure patients, there was no effect of training on m. vastus lateralis NKA c (Green et al 2001 ), whilst in contrast, in young patients with Type I diabetes, NKA c was increased by 8% after sprint training (Harmer et al 2006 ).…”
Section: Nka Content In Skeletal Muscle Including the Effects Of Insu...mentioning
confidence: 75%
“…More recent training studies also show considerable differences in adaptability of NKA isoforms. Resistance training increased both α 1 (32%), α 2 (32%), with β 1 and β 2 unchanged (Altarawneh et al 2020 ), whilst, in another study, induced large increases in α 2 (70%) and β 1 (78%), with these also similarly increased after low-load resistance training with restricted blood flow (Wang et al 2023 ). High-intensity interval training for 6 weeks increased α 1 (41%) and β 1 (10%), but not α 2 (Lemminger et al 2022 ), did not change α 2 or β 1 , but increased glycosylated β 1 and lowered FXYD5 in Type IIa muscle fibres (Hostrup et al 2023 ).…”
Section: Muscle Nka Isoforms Fxyd Localisation Effects Of Exercise Ge...mentioning
confidence: 99%
“…2B, evidence suggests that RT increases the content of pumps in both diseased [84] and healthy populations [82,85] by 15%. Also, considering the long-term upregulation effect of RT on the NA + , K + , and ATPase in muscle cells [82,86], the combined effect of the increase on these cell membrane structures is expected to enhance cell depolarization and repolarization processes, thus increasing the muscle contractile performance, preserving muscle function, and inhibiting the accumulation of fatigue at the cellular level of the muscle tissue. Although the increased electrolytic fluidity arising from the increase in sodium-potassium pumps could also represent a decrease in extra-to intracellular R and favorably increase PhA, particularly when applying stimulation frequencies within the β-dispersions range [87], no information to date exists linking these effects to changes in bioelectrical components.…”
Section: Determinants Of Phase Angle-cell Structure and Function Resp...mentioning
confidence: 99%