NFATc1 Controls Skeletal Muscle Fiber Type and Is a Negative Regulator of MyoD Activity

Ehlers, Melissa L.; Celona, Barbara; Black, Brian L.

doi:10.1016/j.celrep.2014.08.035

Cited by 80 publications

(83 citation statements)

References 39 publications

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“…Therefore, the effect of Gα13 on NFATc1 appears to be quite distinct in skeletal muscle. This idea mirrors the reports that other isoforms except NFATc1 failed to determine fiber types in skeletal muscle (22,(38)(39)(40). We believe our research delineates the role of Gα13 signaling in the regulation of NFATc1 in energy homeostasis and elucidates the mechanism for how G protein signaling amplifies or blunts oxidative metabolism, thus providing insight into the NFATc1 regulatory pathway.…”

Section: 4 7 Jciorgsupporting

confidence: 56%

“…Thus, we propose that Gα13 may serve as a switch that controls the overall sensitivity of multiple receptors associated with energy metabolism. NFATc1 is the most studied regulator of myofiber type-associated gene expression (20)(21)(22). Our results reveal the physiological link between Gα13 and NFAT signaling both in vitro and in vivo.…”

Section: 4 7 Jciorgmentioning

confidence: 76%

“…In contrast to the activation of NFATc3 by Gα13 in fibroblasts (24), adenoviral infection of myotubes with a constitutively active Gα13 (Q229L mutant, hereafter referred to as Gα13QL) robustly inhibited the basal luciferase activity as well as that enhanced by ectopically overexpressed NFATc1 ( Figure 4D). Among NFAT proteins, NFATc1 is the predominant isoform expressed in adult skeletal muscle (22,25). So, it is conceivable that alterations in NFATc1 mainly contribute to overall NFAT activity downstream of Gα13.…”

Section: 4 7 Jciorgmentioning

confidence: 99%

“…Gα13 inhibits NFATc1 activity and regulates muscle oxidative capacity. Nuclear factor of activated T cells 1 (NFATc1) signaling is necessary and sufficient to transform fibers into oxidative type fibers (20)(21)(22). Therefore, we narrowed our focus to NFATc1 as a potential primary regulator of the phenotype transition resulting from Gα13 ablation.…”

Section: 4 7 Jciorgmentioning

confidence: 99%

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Gα13 ablation reprograms myofibers to oxidative phenotype and enhances whole-body metabolism

Koo¹,

Kim²,

Park³

et al. 2017

Journal of Clinical Investigation

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Section: 4 7 Jciorgsupporting

confidence: 56%

Section: 4 7 Jciorgmentioning

confidence: 76%

Section: 4 7 Jciorgmentioning

confidence: 99%

Section: 4 7 Jciorgmentioning

confidence: 99%

See 2 more Smart Citations

Gα13 ablation reprograms myofibers to oxidative phenotype and enhances whole-body metabolism

Koo¹,

Kim²,

Park³

et al. 2017

Journal of Clinical Investigation

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“…Recent studies have shown that the expressions of MyHC I and MyHC IIa are regulated by the Ca 2+ /calcineurin/NFAT pathway (Emrani et al, ; Ravel‐Chapuis, Bélanger, Côté, Michel, & Jasmin, ) pacifically, and increase of the intracellular Ca 2+ leads to calcineurin activation and NFAT dephosphorylation consequently. The dephosphorylated NFAT will translocate to the promoter of the gene involved in oxidative metabolism in the nucleus to promote the transformation of glycolytic muscle fibres to oxidative muscle fibres in skeletal muscle (Ehlers, Celona, & Black, ; Lomonosova, Turtikova, & Shenkman, ; Pfluger et al, ). Recent studies have shown that thymol can also attenuate the oxidative stress and calcium uniporter malfunction to maintain mitochondrial function in rats (Nagoor Meeran, Jagadeesh, & Selvaraj, ) probably by regulating calcium homeostasis.…”

Section: Discussionmentioning

confidence: 99%

Dietary thymol supplementation promotes skeletal muscle fibre type switch in longissimus dorsi of finishing pigs

Luo

Zhao

et al. 2020

Animal Physiology Nutrition

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As one of the key points related to meat quality, skeletal muscle fibre type is determined by energy metabolism and genetic factors, but its transformation could be also greatly influenced by many factors. Thymol, the primary effective ingredients of thyme, is well known for its anti‐oxidation and anti‐inflammatory, while little is known about its effect on skeletal muscle oxidative metabolism and fibre type switch. Therefore, in order to investigate its effects and possibility to be applied in livestock production, 36 150‐day‐old fattening Pigs were fed with different diet for six‐week experiment. As a result, the drip loss ratio of longissimus dorsi (LD) was significantly reduced (p < .05). Oxidative metabolism‐related enzyme activity, the mRNA levels and protein expression of COX5B and PGC1α, mRNA level of myosin heavy chain I (MyHC I) and protein level of MyHC IIa were significantly upregulated (p < .05). While compared with control group, the protein expression of MyHC IIb was significantly decreased (p < .05). The result revealed that thymol could promote the oxidative metabolism in the muscle of pigs and improve the meat quality to a certain extent.

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Transcriptional cofactor Vgll2 is required for functional adaptations of skeletal muscle induced by chronic overload

Honda

Tsuchimochi

Hitachi

et al. 2019

Journal Cellular Physiology

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Skeletal muscle is composed of heterogeneous populations of myofibers classified as slow‐ and fast‐twitch fibers. Myofiber size and composition are drastically changed in response to physiological demands. We previously showed that transcriptional cofactor vestigial‐like (Vgll) 2 is a pivotal regulator of slow muscle gene programming under sedentary conditions. However, whether Vgll2 is required for skeletal muscle adaptations after chronic overload is unclear. Therefore, we investigated the role of Vgll2 in chronic overload‐inducing skeletal muscle adaptations using synergist ablation (SA) on plantaris. We found that Vgll2 is an essential regulator of the switch towards a slow‐contractile phenotype and oxidative metabolism during chronic overload. Mice lacking Vgll2 exhibited limited fiber type transition and downregulation of genes related to lactate metabolism and their regulator peroxisome proliferator‐activated receptor gamma coactivator 1α1, after SA, was augmented in Vgll2‐deficient mice compared with in wild‐type mice. Mechanistically, increased muscle usage elevated Vgll2 levels and promoted the interaction between Vgll2 and its transcription partners such as TEA domain1 (TEAD1), MEF2c, and NFATc1. Calcium ionophore treatment promoted nuclear translocation of Vgll2 and increased TEAD‐dependent MYH7 promotor activity in a Vgll2‐dependent manner. Taken together, these data demonstrate that Vgll2 plays an important role for functional adaptation of skeletal muscle to chronic overload.

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NFATc1 Controls Skeletal Muscle Fiber Type and Is a Negative Regulator of MyoD Activity

Cited by 80 publications

References 39 publications

Gα13 ablation reprograms myofibers to oxidative phenotype and enhances whole-body metabolism

Gα13 ablation reprograms myofibers to oxidative phenotype and enhances whole-body metabolism

Dietary thymol supplementation promotes skeletal muscle fibre type switch in longissimus dorsi of finishing pigs

Transcriptional cofactor Vgll2 is required for functional adaptations of skeletal muscle induced by chronic overload

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