Nadine Simler scite author profile

-Hypoxia induces a loss of skeletal muscle mass, but the signaling pathways and molecular mechanisms involved remain poorly understood. We hypothesized that hypoxia could impair skeletal muscle hypertrophy induced by functional overload (Ov). To test this hypothesis, plantaris muscles were overloaded during 5, 12, and 56 days in female rats exposed to hypobaric hypoxia (5,500 m), and then, we examined the responses of specific signaling pathways involved in protein synthesis (Akt/mTOR) and breakdown (atrogenes). Hypoxia minimized the Ov-induced hypertrophy at days 5 and 12 but did not affect the hypertrophic response measured at day 56. Hypoxia early reduced the phosphorylation levels of mTOR and its downstream targets P70 S6K and rpS6, but it did not affect the phosphorylation levels of Akt and 4E-BP1, in Ov muscles. The role played by specific inhibitors of mTOR, such as AMPK and hypoxia-induced factors (i.e., REDD1 and BNIP-3) was studied. REDD1 protein levels were reduced by overload and were not affected by hypoxia in Ov muscles, whereas AMPK was not activated by hypoxia. Although hypoxia significantly increased BNIP-3 mRNA levels at day 5, protein levels remained unaffected. The mRNA levels of the two atrogenes MURF1 and MAFbx were early increased by hypoxia in Ov muscles. In conclusion, hypoxia induced a transient alteration of muscle growth in this hypertrophic model, at least partly due to a specific impairment of the mTOR/P70 S6K pathway, independently of Akt, by an undefined mechanism, and increased transcript levels for MURF1 and MAFbx that could contribute to stimulate the proteasomal proteolysis.

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Fibre‐type specificity of interleukin‐6 gene transcription during muscle contraction in rat: association with calcineurin activity

Banzet

Koulmann

Simler

et al. 2005

The Journal of Physiology

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In this study, we quantified the transcription of the interleukin-6 (IL-6) gene in individual fibres and the associated changes in calcineurin activity assessed at the cellular level during prolonged muscle contraction. Individual myofibres were isolated from plantaris and soleus muscles of rats at the end of an exhaustive running exercise test (n = 10), categorized according to their myosin heavy chain isoform content, and compared to those of resting rats (n = 10). Using real-time PCR analysis in individual fibres, a marked rise in IL-6 transcript levels occurred in type I and IIa fibres at the end of exercise (P < 0.05). Transcription of the gene encoding for the modulatory calcineurin-interacting protein-1 (MCIP-1), a sensitive indicator of calcineurin activity, also mainly increased in type I and IIa fibres (P < 0.05). Moreover, a slight increase in MCIP-1 mRNA levels was observed in type IIx (P < 0.05). Fibre types determined by immunohistochemistry were qualitatively examined for glycogen content using periodic acid-Shiff staining, and no direct relationship was found, at the cellular level, between glycogen content, fibre-type and IL-6 transcription. Our data clearly suggest that IL-6 gene transcription was mainly observed in early recruited myofibres and that contraction-induced IL-6 transcription could be associated with enhanced calcineurin activity.

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Control of gluconeogenic genes during intense/prolonged exercise: hormone-independent effect of muscle-derived IL-6 on hepatic tissue and PEPCK mRNA

Banzet

Koulmann

Simler

et al. 2009

Journal of Applied Physiology

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Prolonged intense exercise is challenging for the liver to maintain plasma glucose levels. Hormonal changes cannot fully account for exercise-induced hepatic glucose production (HGP). Contracting skeletal muscles release interleukin-6 (IL-6), a cytokine able to increase endogenous glucose production during exercise. However, whether this is attributable to a direct effect of IL-6 on liver remains unknown. Here, we studied hepatic glycogen, gluconeogenic genes, and IL-6 signaling in response to one bout of exhaustive running exercise in rats. To determine whether IL-6 can modulate gluconeogenic gene mRNA independently of exercise, we injected resting rats with recombinant IL-6. Exhaustive exercise resulted in a profound decrease in liver glycogen and an increase in gluconeogenic gene mRNA levels, phosphoenolpyruvate-carboxykinase (PEPCK), glucose-6-phosphatase (G6P), and peroxisome proliferator-activated receptor-gamma coactivator-1alpha (PGC-1alpha), suggesting a key role for gluconeogenesis in hepatic glucose production. This was associated to an active IL-6 signaling in liver tissue, as shown by signal transducer and activator of transcription and CAAT/enhancer binding protein-beta phosphorylation and IL-6-responsive gene mRNA levels at the end of exercise. Recombinant IL-6 injection resulted in an increase in IL-6-responsive gene mRNA levels in the liver. We found a dose-dependent increase in PEPCK gene mRNA strongly correlated with IL-6-induced gene mRNA levels. No changes in G6P and PGC-1alpha mRNA levels were found. Taken together, our results suggest that, during very demanding exercise, muscle-derived IL-6 could help increase HGP by directly upregulating PEPCK mRNA abundance.

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Cyclosporin A Inhibits Hypoxia-induced Pulmonary Hypertension and Right Ventricle Hypertrophy

Koulmann

Novel-Chate

Peinnequin

et al. 2006

Am J Respir Crit Care Med

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Nadine Simler

Hypoxia transiently affects skeletal muscle hypertrophy in a functional overload model

Fibre‐type specificity of interleukin‐6 gene transcription during muscle contraction in rat: association with calcineurin activity

Control of gluconeogenic genes during intense/prolonged exercise: hormone-independent effect of muscle-derived IL-6 on hepatic tissue and PEPCK mRNA

Cyclosporin A Inhibits Hypoxia-induced Pulmonary Hypertension and Right Ventricle Hypertrophy

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