| ID | 113741 |
| Title Alternative | The mechanism of skeletal muscle atrophy : finding from space experiment
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| Author | |
| Keywords | Unloading stress
Muscle atrophy
Mitochondria
Reactive oxygen species
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| Content Type |
Journal Article
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| Description | Skeletal muscle atrophy is a response to decreased physical signals (unloading), such as under microgravity, bed rest and neural inactivation, and is characterized by muscle volume loss and muscle fiber-type switching.
We previously demonstrated that elevated ubiquitin ligase casitas B-lineage lymphoma-b (Cbl-b) resulted in the loss of muscle volume. Here, we showed that the ROS-mediated signal transduction caused by microgravity or its simulation contributes to Cbl-b expression. In L6 myotubes, the assessment of redox status revealed that oxidized glutathione was increased under microgravity conditions, and simulated microgravity caused a burst of ROS, implicating ROS as a critical upstream mediator linking to downstream atrophic signaling. ROS generation activated the ERK 1/2 early-growth response protein (Egr) 1/2-Cbl-b signaling pathway. Our results suggest that under microgravity conditions, elevated ROS may be a crucial mechanotransducer in skeletal muscle cells, regulating muscle mass through Cbl-b expression activated by the ERK-Egr signaling pathway. |
| Journal Title |
Shikoku Acta Medica
|
| ISSN | 00373699
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| NCID | AN00102041
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| Publisher | 徳島医学会
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| Volume | 75
|
| Issue | 1-2
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| Start Page | 11
|
| End Page | 16
|
| Sort Key | 11
|
| Published Date | 2019-04-25
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| FullText File | |
| language |
jpn
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| TextVersion |
Publisher
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| departments |
Medical Sciences
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