Muscle protein synthesis, mTORC1/MAPK/Hippo signaling, and capillary density are altered by blocking of myostatin and activins

Loss of muscle mass and function occurs in various diseases. Myostatin blocking can attenuate muscle loss, but downstream signaling is not well known. Therefore, to elucidate associated signaling pathways, we used the soluble activin receptor IIb (sActRIIB-Fc) to block myostatin and activins in mice...

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Published in:American journal of physiology: endocrinology and metabolism 2013-01, Vol.304 (1), p.E41-E50
Main Authors: Hulmi, Juha J, Oliveira, Bernardo M, Silvennoinen, Mika, Hoogaars, Willem M H, Ma, Hongqiang, Pierre, Philippe, Pasternack, Arja, Kainulainen, Heikki, Ritvos, Olli
Format: Article
Language:English
Subjects:
Activins - antagonists & inhibitors
Angiogenesis
Animals
Blood vessels
Capillaries - cytology
Capillaries - drug effects
Cell Count
Extracellular Signal-Regulated MAP Kinases - genetics
Extracellular Signal-Regulated MAP Kinases - metabolism
Extracellular Signal-Regulated MAP Kinases - physiology
Intercellular Signaling Peptides and Proteins - pharmacology
Male
Mechanistic Target of Rapamycin Complex 1
Mice
Mice, Inbred C57BL
Multiprotein Complexes - genetics
Multiprotein Complexes - metabolism
Multiprotein Complexes - physiology
Muscle Proteins - biosynthesis
Muscle Proteins - metabolism
Muscle, Skeletal - drug effects
Muscle, Skeletal - metabolism
Muscular dystrophy
Muscular system
Myostatin - antagonists & inhibitors
Phosphorylation
Protein Biosynthesis - drug effects
Protein Biosynthesis - genetics
Protein synthesis
Protein-Serine-Threonine Kinases - genetics
Protein-Serine-Threonine Kinases - metabolism
Protein-Serine-Threonine Kinases - physiology
Rodents
Signal Transduction - drug effects
TOR Serine-Threonine Kinases - genetics
TOR Serine-Threonine Kinases - metabolism
TOR Serine-Threonine Kinases - physiology
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Summary:Loss of muscle mass and function occurs in various diseases. Myostatin blocking can attenuate muscle loss, but downstream signaling is not well known. Therefore, to elucidate associated signaling pathways, we used the soluble activin receptor IIb (sActRIIB-Fc) to block myostatin and activins in mice. Within 2 wk, the treatment rapidly increased muscle size as expected but decreased capillary density per area. sActRIIB-Fc increased muscle protein synthesis 1-2 days after the treatment correlating with enhanced mTORC1 signaling (phosphorylated rpS6 and S6K1, r = 0.8). Concurrently, increased REDD1 and eIF2Bε protein contents and phosphorylation of 4E-BP1 and AMPK was observed. In contrast, proangiogenic MAPK signaling and VEGF-A protein decreased. Hippo signaling has been characterized recently as a regulator of organ size and an important regulator of myogenesis in vitro. The phosphorylation of YAP (Yes-associated protein), a readout of activated Hippo signaling, increased after short- and longer-term myostatin and activin blocking and in exercised muscle. Moreover, dystrophic mdx mice had elevated phosphorylated and especially total YAP protein content. These results show that the blocking of myostatin and activins induce rapid skeletal muscle growth. This is associated with increased protein synthesis and mTORC1 signaling but decreased capillary density and proangiogenic signaling. It is also shown for the first time that Hippo signaling is activated in skeletal muscle after myostatin blocking and exercise and also in dystrophic muscle. This suggests that Hippo signaling may have a role in skeletal muscle in various circumstances.
ISSN:0193-1849
1522-1555
DOI:10.1152/ajpendo.00389.2012