Multidirectional effect of low-intensity electrical myostimulation on gene expression and phenotype in thigh and calf muscles after one week of disuse

Borzykh, Anna A.; Zhedyaev, Roman Y.; Ponomarev, Ivan I.; Vepkhvadze, Tatiana F.; Zgoda, Viktor G.; Orlova, Mira A.; Vavilov, Nikita E.; Lednev, Egor M.; Sharlo, Kristina A.; Babkova, Anastasia R.; Makhnovskii, Pavel A.; Shenkman, Boris S.; Rukavishnikov, Ilya V.; Orlov, Oleg I.; Tomilovskaya, Elena S.; Popov, Daniil V.

doi:10.1101/2024.09.18.613609

2024

DOI: 10.1101/2024.09.18.613609

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Multidirectional effect of low-intensity electrical myostimulation on gene expression and phenotype in thigh and calf muscles after one week of disuse

Anna A. Borzykh,

Roman Y. Zhedyaev,

Ivan I. Ponomarev

et al.

Abstract: Aim:Low-intensity neuromuscular electrical stimulation was offered as a safe (non-traumatic) approach to prevent the loss of muscle mass, strength, and endurance in patients with severe chronic diseases and in spaceflight. However, the effects of this approach on various leg muscles are poorly investigated.Methods:This study assessed the efficiency of low-intensity (~10% of maximal voluntary contraction) electrical stimulation in preventing the negative effects of weekly disuse (dry immersion without and with … Show more

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Transcription factors associated with regulation of transcriptome in human thigh and calf muscles at baseline and after one week of disuse

Borzykh,

Makhnovskii,

Ponomarev

et al. 2024

Preprint

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Disuse has a negative impact on the postural muscles of the trunk and legs. Different leg muscles demonstrate a differentiated and conservative response to disuse, in terms of a decrease in muscle mass, strength, aerobic performance, and changes in gene expression. We aimed to identify transcription factors regulating gene expression at baseline and after disuse in humanm. soleus– a “slow” muscle with a strong postural function, and “mixed”m. vastus lateralis. Biopsies were taken from these muscles prior to and after 6 days of strict disuse (dry immersion). The enriched transcription factor binding sites (and corresponding factors) in the individual promoter regions of co-expressed genes were examined using the positional weight matrix approach. The baseline transcriptomic profiles and the disuse-induced changes (RNA-seq) differ significantly between muscles. In particular, the specific and significant response to disuse inm. soleuswas found to be strongly related to the suppression of genes regulating the mitochondrial energy metabolism, the activation of the inflammatory response and the ubiquitin-proteasome system. This response is associated with the proinflammatory transcription factors such as families IRF, STAT, and other. The validity of approximately two-thirds of the predicted transcription factors was indirectly confirmed by the analysis of their function described in the literature. These identified transcription factors appear to be promising candidates for future targeted studies that mechanistically investigate gene expression regulation in various muscles at baseline, following disuse or inactivity.HighlightsDisuse has a different negative impact on the different human postural leg muscles.The transcriptome regulation inm. soleusandm. vastus lateralisdiffers markedly.The gene response to disuse inm. soleusis greater than inm. vastus lateralis.This partially related to activation of inflammation-induced transcription factors.

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Transcription factors associated with regulation of transcriptome in human thigh and calf muscles at baseline and after one week of disuse

Borzykh,

Makhnovskii,

Ponomarev

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

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Multidirectional effect of low-intensity electrical myostimulation on gene expression and phenotype in thigh and calf muscles after one week of disuse

Cited by 1 publication

References 68 publications

Transcription factors associated with regulation of transcriptome in human thigh and calf muscles at baseline and after one week of disuse

Transcription factors associated with regulation of transcriptome in human thigh and calf muscles at baseline and after one week of disuse

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