Regulation of soleus muscle properties by mechanical stress and/or neural activity
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概要
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The responses of soleus muscle and/or muscle fibers to gravitation loading and/or unloading and the roles of mechanical stress and/or neural activity in the regulation of morphological properties in the soleus muscle were briefly reviewed. The soleus muscle, one of the ankle plantar flexors, shows tonic activity during body weight support against gravity (weight bearing exercise?). Passive shortening of muscle length and inhibition of the electromyogram (EMG) activity level are noted if rats are exposed to microgravity or hindlimb-unloading by tail suspension, which lead to severe atrophy in soleus muscle fibers. Previous studies reported that the unloading-related inhibition of mechanical stress and/or neural activity caused down-regulation of muscle mass. On the contrary, functional overload by amputation of the peripheral tendons or ablation of the synergists (plantaris and gastrocnemius) increased force production and sensory nerve activity in the soleus muscle, resulting in fiber hypertrophy. However, deafferentation at the L4-5 segmental level of the spinal cord down-regulated muscle mass, although the loss of muscle mass was not induced if the functional overload was performed in addition to deafferentation. These observations indicate that both mechanical stress and neural activity play important roles in the regulation of soleus muscle mass. It is well known that the level of protein synthesis and degradation strongly affects muscle mass. The mechanical stress-induced recruitment of satellite cells is also one of the important pathways in up- or down-regulation of fiber size. The essential roles of mechanical load applied to muscle fibers and neural activity of the muscle itself were clearly suggested by the reports cited in the present review.
著者
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KAWANO Fuminori
Graduate School of Medicine, Osaka University
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Kawano Fuminori
Graduate School Of Medicine Osaka University
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Ohira Yoshinobu
Graduate School Of Frontier Biosciences Osaka University:graduate School Of Medicine Osaka Universit
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Nakai Naoya
Graduate School Medicine Osaka University
関連論文
- S-13 Possible mechanism of the plasticity of skeletal muscle fibers(The Proceedings of the 13th Annual Meetings of Japan Society of Exercise and Sports Physiology July 30-31, (Tokyo))
- Role of Gravity in Mammalian Development : Effects of Hypergravity and/or Microgravity on the Development of Skeletal Muscles
- 1-P-25 Effects of loading on the activation of satellite cells during the regeneration and regrowth in skeletal muscle in mice(The Proceedings of the 17th Annual Meetings of Japan Society of Exercise and Sports Physiology Jury 25-26, (Tokyo))
- S-V-2 A possible role of heat stress in the plasticity of skeletal muscles(The Proceedings of the 17th Annual Meetings of Japan Society of Exercise and Sports Physiology Jury 25-26, (Tokyo))
- Functional Overloading Facilitates the Regeneration of Injured Soleus Muscles in Mice
- Skeletal Muscle Hypertrophy Induced by Low-Intensity Exercise with Heat-Stress in Healthy Human Subjects
- Heat stress facilitates the regeneration of injured skeletal muscle in rats
- Heat Stress as a Countermeasure for Prevention of Muscle Atrophy in Microgravity Environment
- 1-P-12 The establishment of estimation methods for medaka skeletal muscles(The Proceedings of the 18th Annual Meetings of Japan Society Exercise and Sports Physiology Jury 31 August 1, (Kagoshima))
- Effects of Long-Term Cold Exposure on Contractile Properties in Slow-and Fast-Twitch Muscles of Rats
- Effects of Iron Deficiency and Muscle Activity on Blood Characteristics in Adult Rats
- Responses of Adductor Longus Muscle Fibers to 9-wk Hindlimb Unloading in Rats
- Effects of 9-wk Hindlimb-Suspension on Fiber Types and Metabolic Characteristics in Rat Soleus Muscle
- Hyperbaric exposure with high oxygen concentration enhances oxidative capacity of neuromuscular units
- Effects of running exercise during recovery from hindlimb unloading on soleus muscle fibers and their spinal motoneurons in rats
- Responses of Neuromuscular Systems under Gravity or Microgravity Environment
- 2P05 EFFECTS OF HINDLIMB UNLOADING ON MYONUCLEAR CHARACTERISTICS OF SOLEUS MUSCLE FIBERS IN RATS
- 2P04 EFFECTS OF CHRONIC UNLOADING AND RELOADING ON THE GROWTH OF SOLEUS MUSCLE FIBERS IN RATS
- 2P03 RESPONSES OF NEURO-MUSCULAR SYSTEM TO HINDLIMB UNLOADING AND TENOTOMY IN RATS
- 2P02 Responses of hindlimb unloading on cell body size and oxidative enzyme activity of soleus motoneurons in developing rats
- Changes of Bone Morphology in Response to Hindlimb Suspension of Rats
- Effects of Gravitational Loading on Rat Soleus Muscle Fibers following Hindlimb Suspension
- Upregulation of HSP72 Reloading Rat Soleus Muscle after Prolonged Hindlimb Unloading
- Air-righting responses to chronic hindlimb suspension and ambulation recovery in adult rats
- Role of afferent input in muscle atrophy
- Effects of Chronic Hindlimb Suspension on Landing Performance in Response to Head-Down Drop in Rats
- Regulation of the Properties of Rat Hind Limb Muscles Following Gravitational Unloading
- Neural and/or Mechanical Responses of Adductor Longus Muscle to Exposure to Microgravity in Wistar Hannover Rats
- 1P-Y-30 The effects of functional overloading on the soleus muscle fibers of mdx and wild type mice(The Proceedings of the 16th Annual Meetings of Japan Society of Exercise and Sports Physiology August 2-3, (Nara))
- 1P-Y-29 Responses of rat adductor longus muscle to unloading and reloading(The Proceedings of the 16th Annual Meetings of Japan Society of Exercise and Sports Physiology August 2-3, (Nara))
- S-II-3 Role of phosphorylated HSP27 in the regulation of skeletal muscle mass(The Proceedings of the 16th Annual Meetings of Japan Society of Exercise and Sports Physiology August 2-3, (Nara))
- Effects of Mechanical and/or Neural Stimuli on the Properties of Soleus Muscle Fibers in mdx Mice
- (E11107) Effects of 9 -wk of Hindlimb-Suspension on Neck Muscle Fibers in Rats
- (E41106) Effects of Oral Creatine Supply on Work Capacity in Man
- Role(s) of mechanical load and satellite cells in the regulation of the size of soleus muscle fiber in rats
- 1-P-05 Role of macrophages in morphological regulation of soleus muscle fibers of mice(The Proceedings of the 17th Annual Meetings of Japan Society of Exercise and Sports Physiology Jury 25-26, (Tokyo))
- 1-P-07 Effect of hindlimb suspension on hippocampal neurogenesis in weaned rats(The Proceedings of the 17th Annual Meetings of Japan Society of Exercise and Sports Physiology Jury 25-26, (Tokyo))
- (E11106) Effects of 9 Weeks of Hindlimb-Suspension on Rat Back Muscle Fibers
- Effects of Creatine and Its Analog, β-Guanidinopropionic Acid, on the Differentiation of and Nucleoli in Myoblasts
- Role(s) of Mechanical Load and Satellite Cells in The Regulation of The Size of Soleus Muscle Fiber in Rats
- S.L. Essential role of exercise countermeasure in microgravity environment(The Proceedings of the 18th Annual Meetings of Japan Society Exercise and Sports Physiology Jury 31 August 1, (Kagoshima))
- Control of muscle protein synthesis in response to exercise and amino acids
- Responses of HSC70 expression in diencephalon to iron deficiency anemia in rats
- Modulation of Hippocampal Proteins by Exposure to Simulated Microgravity Environment during the Postnatal Development in Rats
- Regulation of soleus muscle properties by mechanical stress and/or neural activity
- Some aspects of heat stress on the plasticity of skeletal muscle cells
- Modulation of Hippocampal Proteins by Exposure to Simulated Microgravity Environment during the Postnatal Development in Rats
- Some aspects of heat stress on the plasticity of skeletal muscle cells