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1. Bone loss due to disuse and electrical muscle stimulation

Author

Hiroyuki Tamaki, Kengo Yotani, Futoshi Ogita, Hikari Kirimoto, Hideaki Onishi, and Norikatsu Kasuga

Subjects
atrophy, muscle-bone interaction, denervation, mechanical stress, Sports medicine, RC1200-1245, Physiology, QP1-981
Abstract

The mass and structure of bone tissue adapt to the mechanical loads imparted by gravity and movement, and are controlled by the balance between bone formation and bone resorption. The primary adaptations of bone to disuse are demineralization and loss (thinning) of trabecular and cortical bone. Exercise training and electrical muscle stimulation (ES) induce adaptive changes in bone that improve bone strength and inhibit bone loss. ES has been generally applied to patients undergoing physical rehabilitation to maintain and/or recover muscle mass and force-generating capacity in disused muscles. ES-induced muscle contraction of disused muscle can also ameliorate deleterious post-disuse adaptation of bone. The mechanical effects of ES-induced muscle contraction are essential for the maintenance of bone mass and strength, which are achieved through the cooperative functions of osteocytes, osteoblasts, and osteoclasts. The effects of ES, however, are dependent on the stimulation paradigm, including the intensity, frequency, and number of stimuli and the duration of the intervention. This review summarizes the literature on the effects of ES-induced muscle contraction on disuse osteopenia.

Published
2016
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2. Adaptative changes and contractile properties of skeletal muscle: Significance and problems of tension measurement

Author

Norikatsu Kasuga

Subjects
skeletal muscle, contractile function, adaptation, Sports medicine, RC1200-1245, Physiology, QP1-981
Abstract

The contractile function of skeletal muscles is comprised of 3 major elements: strength (maximum muscle strength), speed (contractile velocity), and fatigue resistance (endurance). In sport science, the muscle contractile function facilitating exercise is a notable muscle function, and many studies have investigated the, training effects on skeletal muscle. In the sport science field, various training effects on skeletal muscle have been examined. For example, the level of protein forming the muscular microstructure and composition of muscle fiber type change. Recently, in skeletal muscle training experiments, correlation between changes in molecular and gene control systems in response to training have been attracting attention; however, few studies have simultaneously measured the contractile properties. In this review, the experimental significance of measuring the muscle contractile function has been outlined with reference to previous studies.

Published
2015
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3. Effects of downhill running incorporated into long-term endurance training on skeletal muscle fiber-type switching and fatigue resistance

Author

Norikatsu Kasuga and Shigeru Takemori

Subjects
eccentric exercise, endurance training, skeletal muscle, Sports medicine, RC1200-1245, Physiology, QP1-981
Abstract

The effects of the intermittent incorporation of high-intensity downhill running sessions into long-term endurance training were assessed by examination of the plantaris muscle of rats. First, the intrinsic effects of a single session were evaluated in otherwise sedentary rats. The experimental group showed histological injuries in 2–3 days after the session. In addition, compared with the sedentary control, the experimental group showed a sevenfold increase in the fraction of type IIc fibers, and deceases of 74 and 88% in tetanic force evoked indirectly and directly, respectively, by electric stimulation. The injured muscle fibers showed regeneration within 21 days as evidenced by centrally located nuclei. Next, the effects of intermittently incorporated downhill-running sessions into a 9-week endurance training regimen were tested using two experimental groups: Training and Training + Downhill. On the first day of the 1st, 3rd, 5th, and 7th weeks of the training period, the rats in the Training + Downhill group experienced downhill-running sessions. After the endurance training period, the plantaris muscle of the two experimental groups demonstrated higher fatigue resistance with an increase in the type IIa fiber fraction, at an expense of the type IIb fiber fraction. Compared with the Training group, the Training + Downhill group had a higher type IIa fiber fraction, with clusters of 70–100 type IIa fibers. These results indicate that intermittent high-intensity sessions promote the fiber type transition induced by daily endurance training. However, the potentially adverse effect of fiber type cluster formation suggests that there is an optimum intensity and frequency of the high-intensity exercise sessions for better enhancing the effects of long-term endurance training.

Published
2014
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4. Low-Frequency Electrical Stimulation of Denervated Skeletal Muscle Retards Muscle and Trabecular Bone Loss in Aged Rats

Author

Hideaki Onishi, Norikatsu Kasuga, Kengo Yotani, Noriaki Yamamoto, Futoshi Ogita, Hikari Kirimto, Hiroyuki Tamaki, and Keishi Hayao

Subjects
Male, Aging, medicine.medical_specialty, Electric Stimulation Therapy, Bone tissue, 03 medical and health sciences, 0302 clinical medicine, Atrophy, Bone Density, Internal medicine, medicine, Animals, Myocyte, Muscle, Skeletal, Denervation, Tibia, business.industry, Skeletal muscle, General Medicine, micro computed tomography, medicine.disease, Muscle Denervation, Muscular Disorders, Atrophic, Rats, Inbred F344, Rats, Disease Models, Animal, osteopenia, Treatment Outcome, medicine.anatomical_structure, Endocrinology, muscle force, Osteoporosis, 030211 gastroenterology & hepatology, Cortical bone, Sciatic nerve, disuse, medicine.symptom, business, Research Paper, Muscle Contraction, Muscle contraction
Abstract

Electrical stimulation (ES)-induced muscle contraction has multiple effects; however, mechano-responsiveness of bone tissue declines with age. Here, we investigated whether daily low-frequency ES-induced muscle contraction treatment reduces muscle and bone loss and ameliorates bone fragility in early-stage disuse musculoskeletal atrophy in aged rats. Twenty-seven-month-old male rats were assigned to age-matched groups comprising the control (CON), sciatic nerve denervation (DN), or DN with direct low-frequency ES (DN+ES) groups. The structural and mechanical properties of the trabecular and cortical bone of the tibiae, and the morphological and functional properties of the tibialis anterior (TA) muscles were assessed one week after DN. ES-induced muscle contraction force mitigated denervation-induced muscle and trabecular bone loss and deterioration of the mechanical properties of the tibia mid-diaphysis, such as the stiffness, but not the maximal load, in aged rats. The TA muscle in the DN+ES group showed significant improvement in the myofiber cross-sectional area and muscle force relative to the DN group. These results suggest that low-frequency ES-induced muscle contraction treatment retards trabecular bone and muscle loss in aged rats in early-stage disuse musculoskeletal atrophy, and has beneficial effects on the functional properties of denervated skeletal muscle.

Published
2019

5. Bone loss due to disuse and electrical muscle stimulation

Author

Hideaki Onishi, Norikatsu Kasuga, Hikari Kirimoto, Kengo Yotani, Hiroyuki Tamaki, and Futoshi Ogita

Subjects
0301 basic medicine, Denervation, medicine.medical_specialty, denervation, Chemistry, Physiology, Electrical muscle stimulation, medicine.medical_treatment, mechanical stress, 030209 endocrinology & metabolism, medicine.disease, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Endocrinology, Atrophy, atrophy, Internal medicine, Sports medicine, medicine, muscle-bone interaction, QP1-981, RC1200-1245, Muscle contracture
Abstract

The mass and structure of bone tissue adapt to the mechanical loads imparted by gravity and movement, and are controlled by the balance between bone formation and bone resorption. The primary adaptations of bone to disuse are demineralization and loss (thinning) of trabecular and cortical bone. Exercise training and electrical muscle stimulation (ES) induce adaptive changes in bone that improve bone strength and inhibit bone loss. ES has been generally applied to patients undergoing physical rehabilitation to maintain and/or recover muscle mass and force-generating capacity in disused muscles. ES-induced muscle contraction of disused muscle can also ameliorate deleterious post-disuse adaptation of bone. The mechanical effects of ES-induced muscle contraction are essential for the maintenance of bone mass and strength, which are achieved through the cooperative functions of osteocytes, osteoblasts, and osteoclasts. The effects of ES, however, are dependent on the stimulation paradigm, including the intensity, frequency, and number of stimuli and the duration of the intervention. This review summarizes the literature on the effects of ES-induced muscle contraction on disuse osteopenia.

Published
2016

6. Characteristics of the Localization of Connexin 43 in Satellite Cells during Skeletal Muscle Regeneration In Vivo

Author

Norikatsu Kasuga and Minenori Ishido

Subjects
Basement membrane, Histology, biology, Physiology, Myogenesis, Regeneration (biology), Gap junction, Skeletal muscle, Connexin, Cell Biology, Anatomy, biology.organism_classification, Biochemistry, Pathology and Forensic Medicine, Cell biology, medicine.anatomical_structure, cardiovascular system, medicine, Myocyte, Satellite (biology), sense organs, biological phenomena, cell phenomena, and immunity
Abstract

For myogenesis, new myotubes are formed by the fusion of differentiated myoblasts. In the sequence of events for myotube formation, intercellular communication through gap junctions composed of connexin 43 (Cx43) plays critical roles in regulating the alignment and fusion of myoblasts in advances of myotube formation in vitro. On the other hand, the relationship between the expression patterns of Cx43 and the process of myotube formation in satellite cells during muscle regeneration in vivo remains poorly understood. The present study investigated the relationship between Cx43 and satellite cells in muscle regeneration in vivo. The expression of Cx43 was detected in skeletal muscles on day 1 post-muscle injury, but not in control muscles. Interestingly, the expression of Cx43 was not localized on the inside of the basement membrane of myofibers in the regenerating muscles. Moreover, although the clusters of differentiated satellite cells, which represent a more advanced stage of myotube formation, were observed on the inside of the basement membrane of myofibers in regenerating muscles, the expression of Cx43 was not localized in the clusters of these satellite cells. Therefore, in the present study, it was suggested that Cx43 may not directly contribute to muscle regeneration via satellite cells.

Published
2015

7. Electrical Stimulation of Denervated Rat Skeletal Muscle Ameliorates Bone Fragility and Muscle Loss in Early-Stage Disuse Musculoskeletal Atrophy

Author

Futoshi Ogita, Keishi Hayao, Hiroyuki Tamaki, Noriaki Yamamoto, Kengo Yotani, Hikari Kirimoto, Kazuhiro Sugawara, Hideaki Onishi, Kouki Nakagawa, and Norikatsu Kasuga

Subjects
0301 basic medicine, Male, Sarcopenia, Endocrinology, Diabetes and Metabolism, Muscle Fibers, Skeletal, 030209 endocrinology & metabolism, Bone and Bones, 03 medical and health sciences, Fractures, Bone, 0302 clinical medicine, Endocrinology, Atrophy, medicine, Myocyte, Animals, Orthopedics and Sports Medicine, Muscle, Skeletal, Bone mineral, Denervation, Muscle Denervation, Tibia, business.industry, Skeletal muscle, Anatomy, X-Ray Microtomography, medicine.disease, Electric Stimulation, Rats, Inbred F344, 030104 developmental biology, medicine.anatomical_structure, Cortical bone, medicine.symptom, business, Muscle contraction
Abstract

We tested whether daily muscle electrical stimulation (ES) can ameliorate the decrease in cortical bone strength as well as muscle and bone geometric and material properties in the early stages of disuse musculoskeletal atrophy. 7-week-old male F344 rats were randomly divided into three groups: age-matched control group (Cont); a sciatic denervation group (DN); and a DN + direct electrical stimulation group (DN + ES). Denervated tibialis anterior (TA) muscle in the DN + ES group received ES with 16 mA at 10 Hz for 30 min/day, 6 days/week. Micro CT, the three-point bending test, and immunohistochemistry were used to characterize cortical bone mechanical, structural, and material properties of tibiae. TA muscle in the DN + ES group showed significant improvement in muscle mass and myofiber cross-sectional area relative to the DN group. Maximal load and stiffness of tibiae, bone mineral density estimated by micro CT, and immunoreactivity of DMP1 in the cortical bone tissue were also significantly greater in the DN + ES group than in the DN group. These results suggest that daily ES-induced muscle contraction treatment reduced the decrease in muscle mass and cortical bone strength in early-stage disuse musculoskeletal atrophy and is associated with a beneficial effect on material properties such as mineralization of cortical bone tissue.

Published
2016

9. In Vivo Real-Time Imaging of Exogenous HGF-Triggered Cell Migration in Rat Intact Soleus Muscles

Author

Norikatsu Kasuga and Minenori Ishido

Subjects
Pathology, medicine.medical_specialty, Histology, Physiology, business.industry, Skeletal muscle, Cell migration, Cell Biology, medicine.disease, MyoD, Biochemistry, In vitro, Pathology and Forensic Medicine, Cell biology, Transplantation, medicine.anatomical_structure, In vivo, medicine, Hepatocyte growth factor, Muscular dystrophy, business, medicine.drug
Abstract

The transplantation of myogenic cells is a potentially effective therapy for muscular dystrophy. However, this therapy has achieved little success because the diffusion of transplanted myogenic cells is limited. Hepatocyte growth factor (HGF) is one of the primary triggers to induce myogenic cell migration in vitro. However, to our knowledge, whether exogenous HGF can trigger the migration of myogenic cells (i.e. satellite cells) in intact skeletal muscles in vivo has not been reported. We previously reported a novel in vivo real-time imaging method in rat skeletal muscles. Therefore, the present study examined the relationship between exogenous HGF treatment and cell migration in rat intact soleus muscles using this imaging method. As a result, it was indicated that the cell migration velocity was enhanced in response to increasing exogenous HGF concentration in skeletal muscles. Furthermore, the expression of MyoD was induced in satellite cells in response to HGF treatment. We first demonstrated in vivo real-time imaging of cell migration triggered by exogenous HGF in intact soleus muscles. The experimental method used in the present study will be a useful tool to understand further the regulatory mechanism of HGF-induced satellite cell migration in skeletal muscles in vivo.

Published
2012

10. Upregulation of osteogenic factors induced by high-impact jumping suppresses adipogenesis in marrow but not adipogenic transcription factors in rat tibiae

Author

Kengo Yotani, Hiroyuki Tamaki, Hiroaki Takekura, Norikatsu Kasuga, and Atsumu Yuki

Subjects
Time Factors, Physiology, Core Binding Factor Alpha 1 Subunit, Hindlimb, medicine.disease_cause, Weight-Bearing, chemistry.chemical_compound, Jumping, Osteogenesis, Adipocyte, Adipocytes, Orthopedics and Sports Medicine, Adipogenesis, Reverse Transcriptase Polymerase Chain Reaction, Osteoblast, Organ Size, General Medicine, Jump training, Immunohistochemistry, medicine.anatomical_structure, Female, medicine.medical_specialty, Pluripotent stem cell, Physical Exertion, Alpha (ethology), Bone Marrow Cells, Biology, Mechanical loading, Downregulation and upregulation, Physiology (medical), Internal medicine, medicine, Animals, RNA, Messenger, Muscle, Skeletal, Transcription factor, Osteoblasts, Tibia, Body Weight, Public Health, Environmental and Occupational Health, Rats, Inbred F344, Rats, PPAR gamma, Endocrinology, Gene Expression Regulation, chemistry, CCAAT-Enhancer-Binding Proteins, Transcription Factors
Abstract

Jump training is a high-impact training regimen that increases bone volume in young bones. The aim of our study was to determine whether downregulation of adipogenesis that is associated with upregulation of osteogenesis is detected after jump training in growing rat tibiae. Four-week-old rats were jump trained for 1, 2, or 4 weeks for 5 days/week, and the height of jumping progressively increased to 35 cm. We performed morphometry to directly quantitate changes in bone volume and marrow adipocyte distribution in tibiae after the jump training. We also examined changes in the expression of osteogenic and adipogenic transcription factor proteins and mRNAs after the jump training. Four weeks of jump training induced an increase in trabecular bone volume, which was associated with the recruitment of runt-related transcription factor 2 expressing cells, as well as a decrease in marrow fat volume. However, peroxisome proliferator-activated receptor-gamma2 protein and mRNA expression levels did not change after high-impact jump training. The mRNA expression levels of the adipocyte differentiation genes CCAAT/enhancer-binding proteins (C/EBPs)alpha, C/EBPbeta, and C/EBPdelta also showed no change during the training period in jump-trained rats. We suggest that the levels of osteogenic factors that were upregulated by mechanical loading from high-impact jumping suppress adipogenesis in marrow rather than adipogenic transcription factors.

Published
2010

11. The expression patterns of Pax7 in satellite cells during overload-induced rat adult skeletal muscle hypertrophy

Author

Minenori Ishido, Munehiro Uda, Mitsuhiko Masuhara, and Norikatsu Kasuga

Subjects
Cyclin-Dependent Kinase Inhibitor p21, medicine.medical_specialty, Time Factors, Satellite Cells, Skeletal Muscle, Physiology, Cellular differentiation, Physical Exertion, Population, Biology, Muscle hypertrophy, Muscular Diseases, Proliferating Cell Nuclear Antigen, Internal medicine, medicine, Animals, Paired Box Transcription Factors, Tissue Distribution, Muscle, Skeletal, education, Myogenin, Cell Proliferation, education.field_of_study, integumentary system, Cell growth, Kinase, Skeletal muscle, Cell Differentiation, Hypertrophy, musculoskeletal system, Immunohistochemistry, Rats, Inbred F344, Rats, medicine.anatomical_structure, Endocrinology, nervous system, Female, PAX7, tissues
Abstract

Aim: Activated satellite cells (SCs) have the ability to reacquire a quiescent, undifferentiated state. Pax7 plays a crucial role in allowing activated SCs to undergo self-renewal. Because the increase in the SC population is induced during overload-induced skeletal muscle hypertrophy, it is possible that Pax7-regulated SC self-renewal is involved in the modulation of the SC population during the functional overload of skeletal muscles. However, the characteristics of the expression patterns of Pax7 in SCs during the functional overload of adult skeletal muscles are poorly understood. Methods: Using immunohistochemical approaches, we examined the temporal and spatial expression patterns of Pax7 expressed in SCs during the functional overloading of rat skeletal muscles. Results: The time course of Pax7 expression in SCs was similar to that of the expression of the differentiation regulatory factor myogenin during the early stage of functional overload. However, the percentage of SCs that expressed Pax7 was markedly higher than that of the SCs that expressed myogenin. Coexpression of Pax7 and myogenin was not detected in SCs. In addition, the expression of cyclin-dependent kinase inhibitor p21, which regulates cell cycle arrest and differentiation, was not detected in Pax7-positive SCs. Conclusion: These results suggest that Pax7-regulated self-renewal of SCs may be induced during the early stage of functional overload and may contribute to modulating the SC population in hypertrophied muscles. Furthermore, it was suggested that the numbers of SCs which underwent self-renewal may be higher than that of SCs which were provided as the additional myonuclei for hypertrophying myofibres.

Published
2009

12. Assembly of transverse tubule architecture in the middle and myotendinous junctional regions in developing rat skeletal muscle fibers

Author

Hiroaki Takekura, Susumu Yamashita, Hiroyuki Tamaki, Norikatsu Kasuga, Kelly F. McGrath, and Atsumu Yuki

Subjects
Sarcomeres, Aging, Physiology, Muscle Fibers, Skeletal, Action Potentials, Muscle Proteins, Skeletal Muscle Fibers, Muscle Development, Microtubules, Biochemistry, Sarcomere, Tendons, Sarcolemma, Microscopy, Electron, Transmission, Myofibrils, Animals, Calcium Signaling, Fiber, Muscle, Skeletal, Terminal cisternae, Chemistry, Endoplasmic reticulum, Body Weight, Cell Differentiation, Organ Size, Cell Biology, Anatomy, Transverse tubule, Rats, Inbred F344, Rats, Cell biology, Coupling (electronics), Female, Muscle Contraction
Abstract

The transverse (t)-tubule is responsible for the rapid inward spread of excitation from the sarcolemma to the inside of the muscle fiber, and the compartments of the t-tubule become highly and regularly organized during development. Although it is known that skeletal muscle fibers lengthen by adding sarcomeres at the myotendinous junction (MTJ) during development, no specific model exists for the assembly of new t-tubule architecture at the MTJ. We performed an electron-microscopic examination of the assembly of t-tubule architecture at the MTJ in developing rat skeletal muscle fibers. Although the longitudinally oriented t-tubule elements represent only a small fraction of the total t-tubule system in adult muscle fibers, they were observed at both A-band and I-band regions of middle and MTJ regions in early developmental stages, and gradually disappeared in the middle regions of muscle fibers during development; however, they remained in the MTJ even in adult muscle fibers. The frequency of pentads and heptads (two or three t-tubule elements with three or four elements of terminal cisternae, closely aligned with terminal cisternae of the sarcoplasmic reticulum) decreased during development, with sudden decrease between 7 and 10 weeks of age in the middle regions. Interestingly, although the frequency of decrease appeared to be higher in the middle region than in the MTJ regions in early (3- to 7-week) development, this pattern reversed, and the frequency of decrease was higher in the MTJ in later development (after 10 weeks of age). The MTJ maintained the features of immature membrane systems involved in e-c coupling much longer than the middle region of the fiber during development. The assembly of t-tubule architecture during postnatal development thus follows different processes in the middle and MTJ regions of skeletal muscle fibers.

Published
2007

13. Plasticity of neuromuscular junction architectures in rat slow and fast muscle fibers following temporary denervation and reinnervation processes

Author

Susumu Yamashia, Hiroyuki Tamaki, Hiroaki Takekura, Kelly F. McGrath, Norikatsu Kasuga, and Tomie Nishizawa

Subjects
Denervation, Muscle Denervation, Time Factors, Synaptic cleft, Physiology, Chemistry, Neuromuscular Junction, Cell Biology, Anatomy, Biochemistry, Synaptic vesicle, Rats, Inbred F344, Neuromuscular junction, Rats, Muscle Fibers, Slow-Twitch, medicine.anatomical_structure, Freezing, Muscle Fibers, Fast-Twitch, medicine, Ultrastructure, Animals, Female, Fiber, Reinnervation
Abstract

We evaluated the effects of brief, temporary denervation caused by ischiadic nerve-freezing on the processes of degeneration and regeneration of ultrastructural features in neuromuscular junction (NMJ) architecture in different types of rat skeletal muscle fibers. Nerve terminal (NT) area was decreased significantly 12 h after nerve freezing in both fast-twitch (FT) and slow-twitch (ST) fibers. One day after nerve freezing, some terminal axons were absent; decrease in NT area was remarkable in ST fibers, and there was retraction of Schwann cells and perineural epithelial cells. Fiber type-specific differences were observed in pattern of decrease in NT area between 24 h and 7 days after nerve freezing (there was significantly more decrease in FT fibers). The primary synaptic cleft became shallow, and the secondary junctional folds shorter and wider, but the basement lamina filling the subneural apparatus was unaltered. The number of secondary junctional folds decreased gradually between 6 h and 14 days after nerve freezing in both types of fiber. In control muscle fibers, synaptic vesicle density (SVD) per terminal area was significantly higher in FT fibers. The SVD densities decreased following nerve freezing-induced destruction of NMJs, and were minimal 3 days in FT fibers or 7 days ST fibers after nerve freezing. At 3 weeks, regeneration of both FT and ST fibers was well advanced, and all parameters had recovered to control values in FT fibers 28 days after nerve freezing. Severe degradation of the ultrastructural features in NMJs occurred due to temporary denervation during muscle fiber degeneration processes, and these structural changes were all reversible and fiber type-specific.

Published
2006

17. Age-Related Differences in the Effect of Running Training on Cardiac Myosin Isozyme Composition in Rats

Author

Hisaya Tsujimoto, Keizo Kobayashi, Norikatsu Kasuga, Hideki Suzuki, Shuichi Machida, and Mitsuo Narusawa

Subjects
Aging, medicine.medical_specialty, Younger age, macromolecular substances, Isozyme, Running, Ventricular Myosins, Physical Conditioning, Animal, Age related, Internal medicine, Myosin, medicine, Animals, Sedentary control, business.industry, Myocardium, Cardiac muscle, Cardiac myosin, Anatomy, Rats, Inbred F344, Rats, Endocrinology, medicine.anatomical_structure, Female, Geriatrics and Gerontology, Training program, business
Abstract

We examined the effect of running training on age-related changes in cardiac myosin isozyme composition in rats. Female Fischer 344 rats (6, 12, 20, and 27 months old) were divided into two groups: sedentary control and trained. The trained group rats were trained by treadmill running for up to 60 minutes per day, 5 days per week for 8 weeks at up to 30 m per minute. In sedentary control rats, the proportion of V1 myosin, that is, alpha-myosin heavy chain (MyHC) isoform, decreased progressively from 6 to 27 months of age. In the younger age groups (6 or 12 months old), there was a shift from V1 myosin to V3 myosin (beta-MyHC isoform) in trained hearts. However, the training program did not induce a cardiac myosin isozyme transition in older rats (20 or 27 months old). These results suggest that the mechanisms mediating the responses of cardiac muscle to running training alter during aging.

Published
2002

18. [Untitled]

Author

Hiroaki Takekura and Norikatsu Kasuga

Subjects
Denervation, medicine.medical_specialty, Muscle Denervation, Physiology, Skeletal muscle, Triad (anatomy), Cell Biology, Anatomy, Biology, Biochemistry, T-tubule, medicine.anatomical_structure, Endocrinology, Internal medicine, medicine, medicine.symptom, Myofibril, Terminal cisternae, Muscle contraction
Abstract

We compared the morphological features of the membrane systems involved in excitation-contraction (E-C) coupling during early postnatal development stages in rat skeletal muscles (tibialis anterior) denervated either at birth or 7 days after birth. Four obvious structural changes are observed in the arrangement of the transverse (T) tubule network and the disposition of triads following early postnatal denervation: (1) an increase in the longitudinal segments of the T tubule network, (2) changes in the direction and disposition of triads, (3) the appearance of caveolae clusters, (4) the appearance of pentads and heptads (i.e. a close apposition of two or three T tubule elements with three or four elements of terminal cisternae of sarcoplasmic reticulum). The increased presence of longitudinal T tubules parallels the loss of cross striations, and this in turn is due to misalignment of the myofibrils. The clusters of caveolae appear almost exclusively in muscle fibres denervated at birth, and pentads and heptads are more frequently observed in muscles denervated at 7 days. The differential growth of muscle fibres in response to denervation leads to the formation of abnormal membrane systems involved in the E-C coupling with very unique morphological features, which differ from the case of denervation in adult muscle fibres.

Published
1999

21. Differences in ultrastructural and metabolic profiles within the same type of fibres in various muscles of young and adult rats

Author

H. Takekura, Norikatsu Kasuga, and Toshitada Yoshioka

Subjects
Male, Aging, medicine.medical_specialty, Physiology, Muscle Relaxation, Phosphofructokinase-1, Oxidative phosphorylation, Mitochondrion, Internal medicine, medicine, Animals, Glycolysis, Rats, Wistar, biology, Histocytochemistry, Muscles, Succinate dehydrogenase, Skeletal muscle, Metabolism, musculoskeletal system, Mitochondria, Muscle, Rats, Succinate Dehydrogenase, Kinetics, Endocrinology, medicine.anatomical_structure, biology.protein, Ultrastructure, Oxidation-Reduction, Phosphofructokinase
Abstract

Single fibres from tibialis anterior, extensor digitorum longus, gastrocnemius and soleus muscles in young (4–week–old) and adult (35–week–old) Wistar male rats were classified into three types on the basis of their enzyme–histochemical features: slow–twitch oxidative (SO), fast–twitch oxidative and glycolytic (FOG) and fast–twitch glycolytic (FG) fibres. Ultrastructural (volume density of mitochondria: Vmt and Z line width) and metabolic (phosphofructokinase: PFK and succinate dehydrogenase: SDH activities) profiles were measured. PFK activity in all types of fibres1 was higher in adult rats, and the difference between the two age–groups (adult/young) was largest between FG, FOG and SO fibres respectively. SDH activity and Vmt were lower in adult rats in a similar way in all fibres. A significant positive correlation was observed between the Vmt and SDH activity in both age–groups. This positive correlation was very specific in fast–twitch and slow–twitch fibres. Changes in the Vmt did not relate directly to the changes in fibre cross–sectional area. The overall pattern indicates that glycolytic capacity of fast–twitch fibres in flexor muscles (TA and EDL) is higher than in extensor muscles (GC and SOL), and that oxidative capacity of all types of fibre in extensor muscles is higher than in flexor muscles. These profiles were changed by growth, and may be related to the specific differences in pattern of activity of each skeletal muscle, and may reflect differences in the recruitment order of different muscles.

Published
1994

22. In situ real-time imaging of the satellite cells in rat intact and injured soleus muscles using quantum dots

Author

Minenori Ishido and Norikatsu Kasuga

Subjects
Pathology, medicine.medical_specialty, Histology, Satellite Cells, Skeletal Muscle, Cell, Motility, Biology, Cell Movement, Quantum Dots, medicine, Myocyte, Animals, Muscle, Skeletal, Molecular Biology, Basement membrane, Skeletal muscle, Cell migration, Cell Biology, biology.organism_classification, Cell biology, Rats, Medical Laboratory Technology, medicine.anatomical_structure, Spectrometry, Fluorescence, Satellite (biology), Female, Developmental biology
Abstract

The recruitment of satellite cells, which are located between the basement membrane and the plasma membrane in myofibers, is required for myofiber repair after muscle injury or disease. In particular, satellite cell migration has been focused on as a satellite cell response to muscle injury because satellite cell motility has been revealed in cell culture. On the other hand, in situ, it is poorly understood how satellite cell migration is involved in muscle regeneration after injury because in situ it has been technically very difficult to visualize living satellite cells localized within skeletal muscle. In the present study, using quantum dots conjugated to anti-M-cadherin antibody, we attempted the visualization of satellite cells in both intact and injured skeletal muscle of rat in situ. As a result, the present study is the first to demonstrate in situ real-time imaging of satellite cells localized within the skeletal muscle. Moreover, it was indicated that satellite cell migration toward an injured site was induced in injured muscle while spatiotemporal change in satellite cells did not occur in intact muscle. Thus, it was suggested that the satellite cell migration may play important roles in the regulation of muscle regeneration after injury. Moreover, the new method used in the present study will be a useful tool to develop satellite cell-based therapies for muscle injury or disease.

Published
2010

25. Changes in activities of daily living, physical fitness, and depressive symptoms after six-month periodic well-rounded exercise programs for older adults living in nursing homes or special nursing facilities

Author

Pei, Ouyang, Hiroshi, Yatsuya, Hideaki, Toyoshima, Rei, Otsuka, Keiko, Wada, Kunihiro, Matsushita, Miyuki, Ishikawa, Li, Yuanying, Yo, Hotta, Hirotsugu, Mitsuhashi, Takashi, Muramatsu, Norikatsu, Kasuga, and Koji, Tamakoshi

Subjects
Aged, 80 and over, Male, Depression, Physical Fitness, Activities of Daily Living, Humans, Female, Muscle Strength, Middle Aged, Exercise, Aged, Nursing Homes
Abstract

A 6-month, twice weekly, well-rounded exercise program (47 sessions in total) comprised of a combination of aerobic, resistance and flexibility training was provided for institutionalized older adults aged 60 to 93. We analyzed the data of 18 older adults who could stand and had attended more than 10% of the classes (mean participation rate: 54%) to examine changes in activities of daily living (ADL), physical fitness tests and depressive moods. The mean (+/- standard deviation, range) age of the participants was 71.3 (+/- 15.6, 60-93) in men and 85.9 (+/- 5.8, 72-93) in women. Significant improvement in ADL of the hand manipulation domain and borderline significant improvement in ADL of the mobility domain were observed (McNemar test p = 0.011 and 0.072, respectively). A 6-minute walk distance increased significantly from 151.6 m to 236.6 m (p = 0.01, paired t-test), and the result of the Soda Pop test, which tests hand-eye coordination, also improved significantly from 35.2 sec to 25.3 sec (p = 0.01, paired t-test). These findings suggest that such a program could be effective in improving the ADL and physical fitness of the elderly.

Published
2009

26. EFFECTS OF TESTOSTERONE ON THE CONTRACTILE PROFILES OF DENERVATED RAT SKELETAL MUSCLE

Author

Norikatsu Kasuga, Toshitada Yoshioka, and Hiroaki Takekura

Subjects
Denervation, medicine.medical_specialty, Endocrinology, medicine.anatomical_structure, Chemistry, Internal medicine, medicine, Skeletal muscle, Physical Therapy, Sports Therapy and Rehabilitation, Orthopedics and Sports Medicine, Testosterone (patch)
Published
1991

27. Deterioration induced by physiological concentration of calcium ions in skinned muscle fibres

Author

Yoshiki Umazume and Norikatsu Kasuga

Subjects
Iodoacetic acid, Leupeptins, Physiology, Proteolysis, Q10, chemistry.chemical_element, Iodoacetates, Cysteine Proteinase Inhibitors, Calcium, Biochemistry, chemistry.chemical_compound, Leucine, medicine, Animals, Antipain, Rana catesbeiana, Dose-Response Relationship, Drug, medicine.diagnostic_test, Muscles, Leupeptin, Temperature, Cell Biology, Hydrogen-Ion Concentration, Iodoacetic Acid, Microscopy, Electron, Electrophoresis, chemistry, Biophysics, Electrophoresis, Polyacrylamide Gel, medicine.symptom, Muscle Contraction, Muscle contraction
Abstract

The deteriorating effect of microM order of Ca2+ on skinned frog skeletal muscle fibres was studied from the view point of the digestion of proteins by calcium-activated neutral protease (CANP). Tension developed in solutions containing no MgATP (rigor solution) decreased irreversibly with the addition of Ca2+ in quantities of more than 0.1 microM. Low temperature was seen to suppress (Q10 greater than 4), and neutral pH to maximize, this decrease in tension. In rigor solution containing Ca2+, SDS electrophoresis indicated that a 95 k dalton component (alpha-actinin) was released from the fibre; electron micrography showed the disappearance of Z-lines. These results suggest that one of the causes for decrease in rigor tension is the proteolytic activity of CANP, and its inhibitors were shown to be quite useful in experiments on skinned fibre.

Published
1990

29. Change in Myosin Heavy Chain Composition in Response to Short-term Endurance Exercise in Young Rats.

Author

Ishimatsu SUZUKI, Hideaki KOMIYA, Junichi MAEDA, and Norikatsu KASUGA

Abstract

Objective: The aim of the present study was to determine the effects of age and two different frequencies of short-term period of endurance exercise on the myosin heavy chain (MHC) composition of skeletal muscle in young rats. Experimental design: Twenty male Wistar rats were assigned to 28-day-old (Con 28) or 46-day-old controls (Con 46), and every-other-day exercised (Ex 1) or daily exercised (Ex 2) groups, respectively. Exercise-trained rodents initially ran on a motorized treadmill at 10 m/min for 5 min. On the 3rd day, they ran for 30 min at 20 m/min with a 4% grade. On the 5th day, they ran for 40 min at 25 m/min with an 8% grade. Finally, after the 7th day, they ran for 50 min at 30 m/min with a 10% grade throughout the training period. The MHC isoforms were measured in the soleus (Sol), plantaris (Plan), medial gastrocnemius (MG), extensor digitorum longus (EDL), and tibialis anterior (TA) muscles. All fibers from five muscles were analyzed by SDS-page for their individual MHC expression. Results: The percentage profile of MHC in each muscle of the five muscles did not differ between Con 28 and Con 46. Ex 2 resulted in an increase in the percentage of type Ila MHC in MG, EDL, TA and Plan, and an increase in the percentage of type IIb MHC in Plan, but showed a decrease in the percentage of type lib MHC in EDL, TA and Plan, as compared with Con 46. Ex 2 also showed a decrease in the percentage of type IIa + IId/x MHC in Sol, as compared with Con 46. Conclusions: These data suggested that a daily endurance exercise with short-term program induced an effect on locomotor fasttwitch muscles in young developing rats, from faster fiber type IIb MHC to slower fiber type IIa MHC via an intermediate fiber type IId/x MHC, and hybrid fibers bridge the gaps between the pure fiber types. [ABSTRACT FROM AUTHOR]

Published
2017

30. Degeneration and regeneration of neuromuscular junction architecture in rat skeletal muscle fibers damaged by bupivacaine hydrochloride

Author

Hiroyuki Tamaki, Hiroaki Takekura, Tomie Nishizawa, and Norikatsu Kasuga

Subjects
Microscopy, Electron, Scanning Transmission, animal structures, Physiology, Aché, Neuromuscular Junction, Biochemistry, Neuromuscular junction, law.invention, Extensor digitorum longus muscle, Motor Endplate, Myofibrils, law, Muscle fiber necrosis, medicine, Animals, Regeneration, Bupivacaine hydrochloride, Chemistry, Esterases, Cell Biology, Anatomy, Bupivacaine, language.human_language, Rats, medicine.anatomical_structure, nervous system, Ultrastructure, language, Electron microscope
Abstract

We evaluated the degeneration and regeneration of neuromuscular junctions (NMJs) on the extensor digitorum longus muscle of Fischer 344 rats between 4 h and 3 weeks after bupivacaine hydrochloride (BPVC) injection, which induces muscle fiber necrosis, using histochemical staining by acetylcholine esterase (AchE)-silver and electron microscopy. Degeneration of muscle fibers and NMJs was observed 4 h after BPVC injection. One week after BPVC injection, some terminal axons were almost completely retracted, and the level of basal lamina-associated AchE in some NMJ regions had gradually disappeared. At that time, the depression contained a few, mostly pit-like or elongated oval invaginations: the incipient junctional folds and some NMJs did not have any secondary junctional fold. By 2 weeks after the BPVC injection, secondary junctional folds began to develop; however, the number of secondary junctional folds was clearly less than that in normal NMJs. At 3 weeks when regeneration of muscle fibers was well advanced, the staining for AchE at the end-plates became stronger and better-defined. The volume density of mitochondria in the terminal area of the terminal significantly decreased upon BPVC-induced destruction of the NMJ, and the density reached the lowest value 24 h after BPVC injection. Significant changes in the ultrastructural features of the architecture of NMJs occurred in skeletal muscle fibers damaged by BPVC during both the degeneration and regeneration processes. The changes in the ultrastructural and morphological features of the NMJ architecture during the regeneration of degenerated muscle fibers resembled those that occur during the differentiation of normal muscle fibers.

Published
2004

31. Plasticity of the transverse tubules following denervation and subsequent reinnervation in rat slow and fast muscle fibres

Author

Hiroaki, Takekura, Hiroyuki, Tamaki, Tomie, Nishizawa, and Norikatsu, Kasuga

Subjects
Calcium Channels, L-Type, Nerve Crush, Intracellular Membranes, Muscle Denervation, Rats, Microscopy, Electron, Sarcoplasmic Reticulum, Muscle Fibers, Slow-Twitch, Muscle Fibers, Fast-Twitch, Animals, Calcium, Female, Calcium Signaling, Muscle, Skeletal, Muscle Contraction
Abstract

We have studied the effects of short term denervation followed by reinnervation on the ultrastructure of the membrane systems and on the content of and distribution of key proteins involved in calcium regulation of fast-twitch (FT) extensor digitorum longus (EDL) and slow-twitch (ST) soleus (SOL) muscle fibres. Ischiadic nerve freezing resulted in total lack of neuromuscular transmission for 3 days followed by a slow recovery, but no decline in twitch force elicited by direct stimulation. The latter measurements indicate no significant atrophy within this time frame. The membrane systems of skeletal muscle fibres were visualized using Ca92+)-K3Fe(CN)6-OsO4 techniques and observed using a high voltage electron microscope. [3H]nitrendipine binding was used to detect levels of dihydropyridine receptor (DHPR) expression. The Ca2+ pumping free sarcoplasmic reticulum domains were not affected by the denervation, but the Ca2+ release domains were dramatically increased, particularly in the FT-EDL muscle fibres. The increase is evidenced by a doubling up of the areas of contacts between SR and transverse (t-) tubules, so that in place of the normal triadic arrangement, pentadic and heptadic junctions, formed by multiple interacting layers of ST and t-tubules are seen. Frequency of pentads and heptads increases and declines in parallel to the denervation and reinnervation but with a delay. Immunofluorecence and electron microscopy observations show presence of DHPR and ryanodine receptor clusters at pentads and heptads junctions. A significant (P0.01) positive correlation between the level of [3H]nitrendipine binding component and the frequency pentads and heptads was observed in both the FT-EDL and ST-SOL muscle fibres indicating that overexpression of DHPRs accompanies the build up extra junctional contacts. The results indicate that denervation reversibly affects the domains of the membrane systems involved in excitation-contraction coupling.

Published
2003

32. Eccentric exercise-induced morphological changes in the membrane systems involved in excitation–contraction coupling in rat skeletal muscle

Author

Tomie Nishizawa, Hitomi Ogasawara, Nahoko Fujinami, Norikatsu Kasuga, and Hiroaki Takekura

Subjects
Male, Physiology, Chemistry, Endoplasmic reticulum, Skeletal muscle, Anatomy, Original Articles, Rats, Inbred F344, Rats, Apposition, Membrane, medicine.anatomical_structure, Muscle Fibers, Slow-Twitch, Physical Conditioning, Animal, Muscle Fibers, Fast-Twitch, Ultrastructure, medicine, Eccentric, Animals, Terminal cisternae, Muscle, Skeletal, High voltage electron microscopy, Creatine Kinase, Muscle Contraction
Abstract

1. Physiological evidence suggests that excitation-contraction (E-C) coupling failure results from eccentric contraction-induced muscle injury because of structural and morphological damage to membrane systems directly associated with the E-C coupling processes within skeletal muscle fibres. In this study using rats, we observed the ultrastructural features of the membrane systems of fast-twitch (FT) and slow-twitch (ST) muscle fibres involved in E-C coupling following level and downhill running exercise. Our aim was to find out whether mechanically mediated events following eccentric exercise caused disorder in the membrane systems involved in E-C coupling, and how soon after exercise such disorder occurred. We also compared the morphological changes of the membrane systems between ST and FT muscle fibres within the same muscles. 2. Single muscle fibres were dissected from triceps brachii muscles of male Fischer 344 rats after level or downhill (16 deg decline) motor-driven treadmill running (18 m min(-1), 5 min running with 2 min rest interval, 18 bouts). All single muscle fibres were histochemically classified into ST or FT fibres. The membrane systems were visualized using Ca(2+)-K(3)Fe(CN)(6)-OsO(4) techniques, and observed by high voltage electron microscopy (120-200 kV). 3. There were four obvious ultrastructural changes in the arrangement of the transverse (t)-tubules and the disposition of triads after the downhill running exercise: (1) an increase in the number of longitudinal segments of the t-tubule network, (2) changes in the direction and disposition of triads, (3) the appearance of caveolar clusters, and (4) the appearance of pentads and heptads (close apposition of two or three t-tubule elements with three or four elements of terminal cisternae of the sarcoplasmic reticulum). The caveolar clusters appeared almost exclusively in the ST fibres immediately after downhill running exercise and again 16 h later. The pentads and heptads appeared almost exclusively in the FT fibres, and their numbers increased dramatically 2-3 days after the downhill running exercise. 4. The eccentric exercise led to the formation of abnormal membrane systems involved in E-C coupling processes. These systems have unique morphological features, which differ between ST and FT fibres, even within the same skeletal muscle, and the damage appears to be concentrated in the FT fibres. These observations also support the idea that eccentric exercise- induced E-C coupling failure is due to physical and chemical disruption of the membrane systems involved in the E-C coupling process in skeletal muscle.

Published
2001

33. Morphological changes in the triads and sarcoplasmic reticulum of rat slow and fast muscle fibres following denervation and immobilization

Author

Toshitada Yoshioka, Norikatsu Kasuga, Hiroaki Takekura, and Kohji Kitada

Subjects
Restraint, Physical, Sarcomeres, Physiology, Muscle Fibers, Skeletal, Biochemistry, Sarcomere, Extensor digitorum longus muscle, Atrophy, Neurotrophic factors, medicine, Animals, Rats, Wistar, Terminal cisternae, Denervation, Chemistry, Endoplasmic reticulum, Skeletal muscle, Cell Biology, Anatomy, Organ Size, musculoskeletal system, medicine.disease, Muscle Denervation, Rats, Sarcoplasmic Reticulum, medicine.anatomical_structure, Female, tissues
Abstract

We observed the morphological features of the membrane systems (sarcoplasmic reticulum, transverse tubules and triads) involved with the excitation-contraction coupling in rat soleus and extensor digitorum longus muscle following two disuse protocols: denervation and immobilization. The immobilized positions were: maximum dorsal flexor (soleus were stretched and extensor digitorum longus were shortened), maximum plantar flexor (soleus were shortened and extensor digitorum longus were stretched), and midway between the dorsal flexor and plantar flexor. The arrangement of the membrane systems was disordered following both disuse conditions. Increases in transverse tubule network were apparent; there were clearly more triads than in normal fibres, and pentadic and heptadic structures (i.e., a close approximation of two or three transverse tubule elements with three or four elements of terminal cisternae of sarcoplasmic reticulum) were frequently appeared following both denervation and immobilization. The most notable difference between the influence of denervation and immobilization on the membrane systems is the time at which the pentads and heptads appeared. They appeared much earlier (1 week after denervation) in denervated than in immobilized (3 or 4 weeks after immobilization) muscle fibres. On the other hand, the frequency of pentads and heptads is clearly related to the fibre type (significantly higher in extensor digitorum longus) and to extent of atrophy. The different influences of immobilization in each leg position suggest that disuse, but with neurotrophic factor(s), influences on the membrane systems were affected by sarcomere length, and the neurotrophic factor(s) and muscle activity were not always necessary to form mew membrane systems in disuse skeletal muscle fibres.

Published
1996

34. Influences of sarcomere length and selective elimination of myosin filaments on the localization and orientation of triads in rat muscle fibres

Author

Hiroaki Takekura, Toshitada Yoshioka, and Norikatsu Kasuga

Subjects
Sarcomeres, Physiology, Muscle Fibers, Skeletal, macromolecular substances, In Vitro Techniques, Myosins, Biochemistry, Sarcomere, Potassium Chloride, Extensor digitorum longus muscle, Orientation (geometry), Myosin, Animals, Rats, Wistar, Muscle, Skeletal, Myosin filament, Chemistry, Cell Biology, Hindlimb, Rats, Coupling (electronics), Microscopy, Electron, Ultrastructure, Biophysics, Regression Analysis, Female, Myofibril, Muscle Contraction
Abstract

Ultrastructural features of internal membrane systems directly concerned with the excitation-contraction coupling were observed in chemically skinned muscle bundles prepared from Wistar rat extensor digitorum longus muscle to clarify two questions: (1) whether triads localization and orientation are influenced by the sarcomere length and (2) whether triads localisation and orientation are influenced by the selective elimination of myosin filaments. The distance between triads and Z-lines depends on the sarcomere length: it increase with sarcomere length. There is a highly significant (p0.01) positive correlation between sarcomere length and the distance between triads and Z-line. The distance between Z-line and triads is dependent on sarcomere length, but the width of junctional gap remains constant when the sarcomere length was changed. Incubation in a concentration of KCI, which dissolves the myosin filaments. The localization and orientation of triads was not altered by the elimination of myosin filaments, however, the distance between the Z-line and triads becomes shorter when the myosin filaments was completely eliminated. There were significant differences (p0.01) between control and myosin filament eliminated fibres in the distances between Z-lines and triads (over 2 microns). These results indicate that the distance between triads and Z-lines depend on the sarcomere length and that there may be some connection(s) between triads and the myofibrils. There is that the elastic component responsible for tethering the triads in their normal position is interrupted either because it is normally attached to the myosin filaments, or because it is extracted by the conditions that dissociate myosin filaments.

Published
1996

35. Postnatal changes in cell body size and oxidative enzyme activity of spinal motoneurons innervating the rat tibialis anterior muscle

Author

Akihiko Ishihara, Norikatsu Kasuga, Hideki Suzuki, and Hisaya Tsuzimoto

Subjects
Male, Aging, Hindlimb, Body size, Biology, Muscle Development, Rats, Sprague-Dawley, Developmental Neuroscience, Tibialis anterior muscle, Oxidative enzyme, medicine, Animals, Tibia, Muscle, Skeletal, Motor Neurons, Analysis of Variance, Body Weight, Anatomy, Organ Size, Spinal cord, Rats, Succinate Dehydrogenase, Postnatal age, medicine.anatomical_structure, nervous system, Spinal Cord, Immunohistochemistry, Body Constitution, Developmental Biology
Abstract

The cell body size and succinate dehydrogenase (SDH) activity of spinal motoneurons innervating the superficial and deep regions of the tibialis anterior muscle were studied in rats ranging in postnatal age from 3 to 11 weeks, by retrograde neuronal labeling using fluorescent neuronal tracers. The motoneurons innervating the tibialis anterior muscle were located primarily at the L4 spinal cord segment and those innervating the superficial and deep regions of the muscle were distributed throughout the entire extent of the motoneuron pool. The distribution of the motoneurons during postnatal development was similar to that observed in the adult animal. The mean cell body size of the motoneurons innervating the superficial region of the muscle in rats from 5 to 11 weeks of age was greater than that innervating the deep region at corresponding ages. The mean SDH activity of the motoneurons innervating the deep region of the muscle increased during postnatal development, while there were no changes in the mean SDH activity of those innervating the superficial region during this period. At 11 weeks of age, the motoneurons innervating the deep region of the muscle had a higher mean SDH activity than those innervating the superficial region. An inverse relationship between cell body size and SDH activity of motoneurons innervating both the superficial and deep regions of the muscle was observed, independent of age. These results indicate that motoneurons innervating the superficial and deep regions of the rat tibialis anterior muscle have different developmental patterns with regard to cell body size and SDH activity.

Published
1994

36. Effect of endurance training on the oxidative enzyme activity of soleus motoneurons in rats

Author

Norikatsu Kasuga, S. Taguchi, Toshihiro Ishiko, A. Ishihara, H. Suzuki, and Hisaya Tsuzimoto

Subjects
Soleus muscle, Motor Neurons, medicine.medical_specialty, Physiology, Muscles, Physical exercise, Biology, Motor neuron, Rats, Inbred F344, Rats, Succinate Dehydrogenase, Endocrinology, medicine.anatomical_structure, Endurance training, Internal medicine, Physical Conditioning, Animal, Oxidative enzyme, medicine, Physical Endurance, Animals, Female
Published
1991

37. Assembly of transverse tubule architecture in the middle and myotendinous junctional regions in developing rat skeletal muscle fibers.

Author

Susumu Yamashita, Kelly McGrath, Atsumu Yuki, Hiroyuki Tamaki, Norikatsu Kasuga, and Hiroaki Takekura

Abstract

Abstract  The transverse (t)-tubule is responsible for the rapid inward spread of excitation from the sarcolemma to the inside of the muscle fiber, and the compartments of the t-tubule become highly and regularly organized during development. Although it is known that skeletal muscle fibers lengthen by adding sarcomeres at the myotendinous junction (MTJ) during development, no specific model exists for the assembly of new t-tubule architecture at the MTJ. We performed an electron-microscopic examination of the assembly of t-tubule architecture at the MTJ in developing rat skeletal muscle fibers. Although the longitudinally oriented t-tubule elements represent only a small fraction of the total t-tubule system in adult muscle fibers, they were observed at both A-band and I-band regions of middle and MTJ regions in early developmental stages, and gradually disappeared in the middle regions of muscle fibers during development; however, they remained in the MTJ even in adult muscle fibers. The frequency of pentads and heptads (two or three t-tubule elements with three or four elements of terminal cisternae, closely aligned with terminal cisternae of the sarcoplasmic reticulum) decreased during development, with sudden decrease between 7 and 10 weeks of age in the middle regions. Interestingly, although the frequency of decrease appeared to be higher in the middle region than in the MTJ regions in early (3- to 7-week) development, this pattern reversed, and the frequency of decrease was higher in the MTJ in later development (after 10 weeks of age). The MTJ maintained the features of immature membrane systems involved in e-c coupling much longer than the middle region of the fiber during development. The assembly of t-tubule architecture during postnatal development thus follows different processes in the middle and MTJ regions of skeletal muscle fibers. [ABSTRACT FROM AUTHOR]

Published
2007
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38. PROPERTIES OF SKELETAL MUSCLE FIBER TYPES AND FACTORS EFFECTING THEM

Author

Norikatsu Kasuga, Shigeru Katsuta, Akihiko Ishihara, Hideki Matoba, Kazuo Ito, and Takashi Kitaura

Subjects
medicine.anatomical_structure, Fiber type, Chemistry, medicine, Skeletal muscle, Physical Therapy, Sports Therapy and Rehabilitation, Orthopedics and Sports Medicine, Skeletal Muscle Fibers, Anatomy
Published
1988

39. PROPERTIES OF SKELETAL MUSCLE FIBER TYPES AND FACTORS EFFECTING THEM

Author

Hideki Matoba, Shigeru Katsuta, Takashi Kitaura, Akihiko Ishihara, Kazuo Ito, and Norikatsu Kasuga

Subjects
medicine.anatomical_structure, Fiber type, Chemistry, medicine, Skeletal muscle, Physical Therapy, Sports Therapy and Rehabilitation, Orthopedics and Sports Medicine, Cell biology
Published
1989

40. ARRHYTHMIA AND PALMITOLEIC ACID

Author

Masayuki Watanabe, Yoshinori Ogawa, Norikatsu Kasuga, Mitsutsugu Ono, and Toshie Komuro

Subjects
medicine.medical_specialty, chemistry.chemical_compound, Endocrinology, chemistry, Internal medicine, medicine, Palmitoleic acid, Physical Therapy, Sports Therapy and Rehabilitation, Orthopedics and Sports Medicine
Published
1978

42. EFFECT OF TAURINE ON THE METABOLISM WITH EXERCISE (II)

Author

Takanobu Yamamoto, Hiroshi Toyama, Ryuichi Matsuyama, Norikatsu Kasuga, Masayuki Watanabe, Mitsutsugu Ono, Masayuki Nishimaki, Hideki Hara, Noriki Nagao, Kazunori Nosaka, Masaro Tsukahara, Kumiko Minato, and Hiroyuki Tanaka

Subjects
Taurine, medicine.medical_specialty, Protein diet, Physical Therapy, Sports Therapy and Rehabilitation, Metabolism, Biology, chemistry.chemical_compound, Endocrinology, chemistry, Internal medicine, Low carbohydrate high fat, medicine, Orthopedics and Sports Medicine, Young male
Published
1982

48. A BASIC STUDY FOR ESTABLISHING A SUITABLE PRESCRIPTION OF EXERCISE ON THE LONG DISTANCE WALKING

Author

Sho Onodera, Norikatsu Kasuga, Hiroyuki Tanaka, Yoshinori Ogawa, Mitsutsugu Ono, Masayuki Watanabe, Satoru Shimizu, Kunihiko Harada, Michiaki Ikeda, Noriki Nagao, Nobutaka Yamamoto, Kumiko Minato, Yoshinori Miyazaki, and Hideki Hara

Subjects
medicine.medical_specialty, Physical medicine and rehabilitation, business.industry, Physical therapy, Medicine, Physical Therapy, Sports Therapy and Rehabilitation, Orthopedics and Sports Medicine, Medical prescription, business
Published
1981

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