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6. Age‐related nitration/dysfunction of myogenic stem cell activator HGF.

Author

Elgaabari, Alaa, Imatomi, Nana, Kido, Hirochika, Nakashima, Takashi, Okuda, Shoko, Manabe, Yoshitaka, Sawano, Shoko, Mizunoya, Wataru, Kaneko, Ryuki, Tanaka, Sakiho, Maeno, Takahiro, Matsuyoshi, Yuji, Seki, Miyumi, Kuwakado, So, Zushi, Kahona, Daneshvar, Nasibeh, Nakamura, Mako, Suzuki, Takahiro, Sunagawa, Kenji, and Anderson, Judy E.

Subjects
MYOBLASTS, STEM cells, NITRATION, HEPATOCYTE growth factor, SARCOPENIA, MUSCULAR atrophy
Abstract

Mechanical perturbation triggers activation of resident myogenic stem cells to enter the cell cycle through a cascade of events including hepatocyte growth factor (HGF) release from its extracellular tethering and the subsequent presentation to signaling‐receptor c‐met. Here, we show that with aging, extracellular HGF undergoes tyrosine‐residue (Y) nitration and loses c‐met binding, thereby disturbing muscle homeostasis. Biochemical studies demonstrated that nitration/dysfunction is specific to HGF among other major growth factors and is characterized by its locations at Y198 and Y250 in c‐met‐binding domains. Direct‐immunofluorescence microscopy of lower hind limb muscles from three age groups of rat, provided direct in vivo evidence for age‐related increases in nitration of ECM‐bound HGF, preferentially stained for anti‐nitrated Y198 and Y250‐HGF mAbs (raised in‐house) in fast IIa and IIx myofibers. Overall, findings highlight inhibitory impacts of HGF nitration on myogenic stem cell dynamics, pioneering a cogent discussion for better understanding age‐related muscle atrophy and impaired regeneration with fibrosis (including sarcopenia and frailty). [ABSTRACT FROM AUTHOR]

Published
2024
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8. Up- and Downregulated Genes after Long-Term Muscle Atrophy Induced by Denervation in Mice Detected Using RNA-Seq.

Author

Sawano, Shoko, Fukushima, Misaki, Akasaka, Taiki, Nakamura, Mako, Tatsumi, Ryuichi, Ikeuchi, Yoshihide, and Mizunoya, Wataru

Subjects
*MUSCULAR atrophy, *DENERVATION, *RNA sequencing, *GENE expression, *LINCRNA, *MUSCLE growth, *SOLEUS muscle
Abstract

Skeletal muscle atrophy occurs rapidly as a result of inactivity. Although there are many reports on changes in gene expression during the early phase of muscle atrophy, the patterns of up-and downregulated gene expression after long-term and equilibrated muscle atrophy are poorly understood. In this study, we comprehensively examined the changes in gene expression in long-term denervated mouse muscles using RNA-Seq. The murine right sciatic nerve was denervated, and the mice were housed for five weeks. The cross-sectional areas of the hind limb muscles were measured using an X-ray CT system 35 days after denervation. After 28 d of denervation, the cross-sectional area of the muscle decreased to approximately 65% of that of the intact left muscle and reached a plateau. Gene expression in the soleus and extensor digitorum longus (EDL) muscles on the 36th day was analyzed using RNA-Seq and validated using RT-qPCR. RNA-Seq analysis revealed that three genes—Adora1, E230016M11Rik, and Gm10718—were upregulated and one gene—Gm20515—was downregulated in the soleus muscle; additionally, four genes—Adora1, E230016M11Rik, Pigh, and Gm15557—were upregulated and one gene—Fzd7—was downregulated in the EDL muscle (FDR < 0.05). Among these genes, E230016M11Rik, one of the long non-coding RNAs, was significantly upregulated in both the muscles. These findings indicate that E230016M11Rik could be a candidate gene for the maintenance of atrophied skeletal muscle size and an atrophic state. [ABSTRACT FROM AUTHOR]

Published
2023
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9. Egg components reverse the atrophy induced by injury in skeletal muscles.

Author

Sawano, Shoko, Kobayashi, Yuya, Maesawa, Suzuka, and Mizunoya, Wataru

Subjects
*SKELETAL muscle injuries, *MUSCULAR atrophy, *EGG yolk, *ATROPHY, *SKELETAL muscle, *EGGS, *MALNUTRITION, *TIBIALIS anterior
Abstract

Skeletal muscle atrophy is the loss of muscle tissue caused by factors such as inactivity, malnutrition, aging, and injury. In this study, we aimed to investigate whether egg components exert inhibitory effects on muscle atrophy. An egg mix solution was orally administered for 10 consecutive days to male C57BL/6J mice injected with cardiotoxin in the tibialis anterior (TA) muscle. The administration of egg mixture significantly decreased the atrogin‐1 and MuRF‐1 protein levels, key factors in muscle atrophy, as observed by western blotting. Furthermore, we investigated the effects of egg components such as avidin, lecithin, biotin, 3‐sn‐phosphatidylcholine, and L‐α‐phosphatidylcholine on dexamethasone (DEX)‐treated C2C12 myotubes. Lecithin, biotin, 3‐sn‐phosphatidylcholine, and L‐α‐phosphatidylcholine in egg yolk significantly recovered the diameters of C2C12 myotubes decreased upon DEX application. Avidin did not show such reversal. Biotin, 3‐sn‐phosphatidylcholine, and L‐α‐phosphatidylcholine also attenuated atrogin‐1 protein expression enhanced by DEX. Our findings reveal that egg yolk components could contribute to the reversal of skeletal muscle atrophy induced by muscle injury. [ABSTRACT FROM AUTHOR]

Published
2022
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10. Additional Cover.

Author

Elgaabari, Alaa, Imatomi, Nana, Kido, Hirochika, Nakashima, Takashi, Okuda, Shoko, Manabe, Yoshitaka, Sawano, Shoko, Mizunoya, Wataru, Kaneko, Ryuki, Tanaka, Sakiho, Maeno, Takahiro, Matsuyoshi, Yuji, Seki, Miyumi, Kuwakado, So, Zushi, Kahona, Daneshvar, Nasibeh, Nakamura, Mako, Suzuki, Takahiro, Sunagawa, Kenji, and Anderson, Judy E.

Subjects
MYOBLASTS, STEM cells
Abstract

This document is the cover legend for an article titled "Age-related nitration/dysfunction of myogenic stem cell activator HGF" published in the journal Aging Cell. The article, authored by Alaa Elgaabari et al., explores the impact of aging on the function of a protein called HGF, which is involved in the activation of stem cells responsible for muscle regeneration. The research suggests that age-related nitration of HGF may contribute to the decline in muscle regeneration observed in older individuals. The article includes a list of all the authors involved in the study. [Extracted from the article]

Published
2024
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13. Correlation between skeletal muscle fiber type and free amino acid levels in Japanese Black steers.

Author

Mashima, Daisuke, Oka, Yoshiaki, Gotoh, Takafumi, Tomonaga, Shozo, Sawano, Shoko, Nakamura, Mako, Tatsumi, Ryuichi, and Mizunoya, Wataru

Subjects
POLYACRYLAMIDE gel electrophoresis, AMINO acids, AUTOPSY, SKELETAL muscle, HIGH performance liquid chromatography
Abstract

Free amino acids are important components of tastants and flavor precursors in meat. To clarify the correlation between muscle fiber type and free amino acids, we determined the concentrations of various free amino acids and dipeptides in samples of different muscle tissues (n = 21), collected from 26‐month‐old Japanese Black steers (n = 3) at 2 days postmortem. The proportions of the myosin heavy chain (MyHC), slow (MyHC1) and fast (MyHC2) isoforms were determined by sodium dodecyl sulfate–polyacrylamide gel electrophoresis (SDS–PAGE). The contents of free amino acids and dipeptides were measured by high performance liquid chromatography (HPLC). The MyHC isoform composition varied among the tissue samples. The MyHC1 proportion ranged from 6.9% ± 3.9% to 83.3% ± 16.7%. We confirmed that there was a strong positive correlation between MyHC1 composition and total free amino acid concentrations, including those for two dipeptides. Among the 31 measured free amino acids and dipeptides, 11 showed significant positive correlations and five showed significant negative correlations with MyHC1 composition. These results suggest that a high MyHC1 content induces high free amino acid contents in bovine muscles possibly because of greater oxidative metabolism. This high level of free amino acids could contribute to the intense flavor of meat that is rich in slow‐twitch fibers. [ABSTRACT FROM AUTHOR]

Published
2019
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14. Slow-Myofiber Commitment by Semaphorin 3A Secreted from Myogenic Stem Cells.

Author

Tatsumi, Ryuichi, Suzuki, Takahiro, Do, Mai-Khoi Q., Ohya, Yuki, Anderson, Judy E., Shibata, Ayumi, Kawaguchi, Mai, Ohya, Shunpei, Ohtsubo, Hideaki, Mizunoya, Wataru, Sawano, Shoko, Komiya, Yusuke, Ichitsubo, Riho, Ojima, Koichi, Nishimatsu, Shin-ichiro, Nohno, Tsutomu, Ohsawa, Yutaka, Sunada, Yoshihide, Nakamura, Mako, and Furuse, Mitsuhiro

Abstract

Recently, we found that resident myogenic stem satellite cells upregulate a multi-functional secreted protein, semaphorin 3A (Sema3A), exclusively at the early-differentiation phase in response to muscle injury; however, its physiological significance is still unknown. Here we show that Sema3A impacts slow-twitch fiber generation through a signaling pathway, cell-membrane receptor (neuropilin2-plexinA3) → myogenin-myocyte enhancer factor 2D → slow myosin heavy chain. This novel axis was found by small interfering RNA-transfection experiments in myoblast cultures, which also revealed an additional element that Sema3A-neuropilin1/plexinA1, A2 may enhance slow-fiber formation by activating signals that inhibit fast-myosin expression. Importantly, satellite cell-specific Sema3A conditional-knockout adult mice (Pax7CreERT2-Sema3Afl°x activated by tamoxifen-i.p. injection) provided direct in vivo evidence for the Sema3A-driven program, by showing that slow-fiber generation and muscle endurance were diminished after repair from cardiotoxin-injury of gastrocnemius muscle. Overall, the findings highlight an active role for satellite cell-secreted Sema3A ligand as a key 'commitment factor' for the slow-fiber population during muscle regeneration. Results extend our understanding of the myogenic stem-cell strategy that regulates fiber-type differentiation and is responsible for skeletal muscle contractility, energy metabolism, fatigue resistance, and its susceptibility to aging and disease. S tem C ells 2017;35:1815-1834 [ABSTRACT FROM AUTHOR]

Published
2017
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16. A One-Step Immunostaining Method to Visualize Rodent Muscle Fiber Type within a Single Specimen.

Author

Sawano, Shoko, Komiya, Yusuke, Ichitsubo, Riho, Ohkawa, Yasuyuki, Nakamura, Mako, Tatsumi, Ryuichi, Ikeuchi, Yoshihide, and Mizunoya, Wataru

Subjects
*IMMUNOSTAINING, *IMMUNOGLOBULINS, *MYOSIN, *MONOCLONAL antibodies, *LABORATORY mice
Abstract

In this study, we present a quadruple immunostaining method for rapid muscle fiber typing of mice and rats using antibodies specific to the adult myosin heavy chain (MyHC) isoforms MyHC1, 2A, 2X, and 2B, which are common marker proteins of distinct muscle fiber types. We developed rat monoclonal antibodies specific to each MyHC isoform and conjugated these four antibodies to fluorophores with distinct excitation and emission wavelengths. By mixing the four types of conjugated antibodies, MyHC1, 2A, 2X, and 2B could be distinguished within a single specimen allowing for facile delineation of skeletal muscle fiber types. Furthermore, we could observe hybrid fibers expressing MyHC2X and MyHC2B together in single longitudinal muscle sections from mice and rats, that was not attained in previous techniques. This staining method is expected to be applied to study muscle fiber type transition in response to environmental factors, and to ultimately develop techniques to regulate animal muscle fiber types. [ABSTRACT FROM AUTHOR]

Published
2016
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17. Transmembrane proteoglycans syndecan-2, 4, receptor candidates for the impact of HGF and FGF2 on semaphorin 3A expression in early-differentiated myoblasts.

Author

Do, Mai‐Khoi Q., Shimizu, Naomi, Suzuki, Takahiro, Ohtsubo, Hideaki, Mizunoya, Wataru, Nakamura, Mako, Sawano, Shoko, Furuse, Mitsuhiro, Ikeuchi, Yoshihide, Anderson, Judy E., and Tatsumi, Ryuichi

Subjects
PROTEOGLYCANS, SYNDECANS, SEMAPHORINS, MYOBLASTS, HEPATOCYTE growth factor, FIBROBLAST growth factors
Abstract

Regenerative mechanisms that regulate intramuscular motor innervation are thought to reside in the spatiotemporal expression of axon-guidance molecules. Our previous studies proposed an unexplored role of resident myogenic stem cell (satellite cell)-derived myoblasts as a key presenter of a secreted neural chemorepellent semaphorin 3A (Sema3A); hepatocyte growth factor ( HGF) and basic fibroblast growth factor ( FGF2) triggered its expression exclusively at the early differentiation phase. In order to advance this concept, the present study described that transmembrane heparan/chondroitin sulfate proteoglycans syndecan-2, 4 may be the plausible receptor candidates for HGF and FGF2 to signal Sema3A expression. Results showed that mRNA expression of syndecan-2, 4 was abundant (two magnitudes higher than syndecan-1, 3) in early-differentiated myoblasts and their in vitro knockdown diminished the HGF/ FGF2-induced expression of Sema3A down to a baseline level. Pretreatment with heparitinase and chondroitinase ABC decreased the HGF and FGF2 responses, respectively, in non-knockdown cultures, supporting a possible model that HGF and FGF2 may bind to heparan and chondroitin sulfate chains of syndecan-2, 4 to signal Sema3A expression. The findings, therefore, extend our understanding that HGF/ FGF2-syndecan-2, 4 association may stimulate a burst of Sema3A secretion by myoblasts recruited to the site of muscle injury; this would ensure a coordinated delay in the attachment of motoneuron terminals onto fibers early in muscle regeneration, and thus synchronize the recovery of muscle fiber integrity and the early resolution of inflammation after injury with reinnervation toward functional recovery. [ABSTRACT FROM AUTHOR]

Published
2015
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18. Supplementary immunocytochemistry of hepatocyte growth factor production in activated macrophages early in muscle regeneration.

Author

Sawano, Shoko, Suzuki, Takahiro, Do, Mai‐Khoi Q., Ohtsubo, Hideaki, Mizunoya, Wataru, Ikeuchi, Yoshihide, and Tatsumi, Ryuichi

Subjects
*IMMUNOCYTOCHEMISTRY, *HEPATOCYTE growth factor, *MACROPHAGE activation, *MUSCLE regeneration, *INNERVATION, *SPATIOTEMPORAL processes, *MYOBLASTS
Abstract

Regenerative intramuscular motor-innervation is thought to reside in the spatiotemporal expression of axon-guidance molecules. Our previous studies showed that resident myogenic stem cells, satellite cells, up-regulate a secreted neural-chemorepellent semaphorin 3A ( Sema3 A) during the early-differentiation period, in response to hepatocyte growth factor ( HGF) elevated in injured muscle. However, a paracrine source of the HGF release is still unknown. Very recently, we proposed a possible contribution of anti-inflammatory macrophages ( CD206-positive M2) by showing that M2 cells infiltrate predominantly at the early-differentiation phase (3-5 days post-injury) and produce/secrete large amounts of HGF. However, in understanding this concept there still remains a critical need to examine if phagocytotic pro-inflammatory macrophages ( CD86-positive M1), another activated-phenotype still present at the early-differentiation phase concerned, produce HGF upon muscle injury. The current immunocytochemical study demonstrated that the HGF expression is negative for M1 prepared from cardiotoxin-injured Tibialis anterior muscle at day 5, in contrast to the intense fluorescent-signal of M2 served as a positive control. This supplementary result advances our understanding of a spatiotemporal burst of HGF secretion from M2 populations (not M1) to impact Sema3 A expression, which ensures a coordinated delay in attachment of motoneuron terminals onto damaged and generating fibers during the early phase of muscle regeneration. [ABSTRACT FROM AUTHOR]

Published
2014
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19. Evaluation of the Suppressive Effect on Bitter Taste of Gluconate.

Author

NARUKAWA, Masataka, TSUJITANI, Tomoko, UENO, Yusuke, NAKANO-OOKA, Kaori, MIYAMOTO-KOKUBO, Nari, SAWANO, Shoko, and HAYASHI, Yukako

Subjects
FLAVOR research, BITTERNESS (Taste), TASTE, GLUCONIC acid, SENSORY evaluation
Abstract

The article focuses on a study which examines the utility of gluconate as a taste improving substance. It states that general labelled magnitude scale method was used to determine the taste intensity and quality of potassium gluconate and Calcium gluconate. It mentions the result which reveals that in human sensory tests, gluconate successfully suppressed the bitter taste.

Published
2012
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20. G-Protein-Dependent and -Independent Pathways in Denatonium Signal Transduction.

Author

Sawano, Shoko, Seto, Eri, Mori, Tomohiko, and Hayashi, Yukako

Subjects
*G proteins, *TASTE, *MEMBRANE proteins, *PATCH-clamp techniques (Electrophysiology), *CELLULAR signal transduction, *MICE
Abstract

The article presents a whole-cell patch-clamp analysis with isolated taste cells in mice to clarify the involvement of G protein in denatonium signal transduction. Two different responses were observed. The data suggests that dual, G-protein-dependent and -independent mechanisms for denatonium. It demonstrates the multiple transduction pathways for denatonium in mammalian taste cells.

Published
2005
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21. In vitro immuno‐prevention of nitration/dysfunction of myogenic stem cell activator HGF, towards developing a strategy for age‐related muscle atrophy.

Author

Tanaka, Sakiho, Elgaabari, Alaa, Seki, Miyumi, Kuwakado, So, Zushi, Kahona, Miyamoto, Junri, Sawano, Shoko, Mizunoya, Wataru, Ehara, Kenshiro, Watanabe, Naruha, Ogawa, Yohei, Imakyure, Hikaru, Fujimaru, Reina, Osaki, Rika, Shitamitsu, Kazuki, Mizoguchi, Kaoru, Ushijima, Tomoki, Maeno, Takahiro, Nakashima, Takashi, and Suzuki, Takahiro

Subjects
*HEPATOCYTE growth factor, *MUSCULAR atrophy, *SATELLITE cells, *MYOBLASTS, *NITRATION
Abstract

In response to peroxynitrite (ONOO−) generation, myogenic stem satellite cell activator HGF (hepatocyte growth factor) undergoes nitration of tyrosine residues (Y198 and Y250) predominantly on fast IIa and IIx myofibers to lose its binding to the signaling receptor c‐met, thereby disturbing muscle homeostasis during aging. Here we show that rat anti‐HGF monoclonal antibody (mAb) 1H41C10, which was raised in‐house against a synthetic peptide FTSNPEVRnitroY198EV, a site well‐conserved in mammals, functions to confer resistance to nitration dysfunction on HGF. 1H41C10 was characterized by recognizing both nitrated and non‐nitrated HGF with different affinities as revealed by Western blotting, indicating that the paratope of 1H41C10 may bind to the immediate vicinity of Y198. Subsequent experiments showed that 1H41C10‐bound HGF resists peroxynitrite‐induced nitration of Y198. A companion mAb‐1H42F4 presented similar immuno‐reactivity, but did not protect Y198 nitration, and thus served as the control. Importantly, 1H41C10‐HGF also withstood Y250 nitration to retain c‐met binding and satellite cell activation functions in culture. The Fab region of 1H41C10 exerts resistivity to Y250 nitration possibly due to its localization in the immediate vicinity to Y250, as supported by an additional set of experiments showing that the 1H41C10‐Fab confers Y250‐nitration resistance which the Fc segment does not. Findings highlight the in vitro preventive impact of 1H41C10 on HGF nitration‐dysfunction that strongly impairs myogenic stem cell dynamics, potentially pioneering cogent strategies for counteracting or treating age‐related muscle atrophy with fibrosis (including sarcopenia and frailty) and the therapeutic application of investigational HGF drugs. [ABSTRACT FROM AUTHOR]

Published
2024
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22. Effect of Gender, Rearing, and Cooking on the Metabolomic Profile of Porcine Muscles.

Author

Sawano, Shoko, Oza, Keishi, Murakami, Tetsuya, Nakamura, Mako, Tatsumi, Ryuichi, and Mizunoya, Wataru

Subjects
ERECTOR spinae muscles, MUSCLES, SKELETAL muscle, METABOLITES, MEAT quality
Abstract

To clarify the relationship between the fiber type composition and meat quality, we performed metabolomic analysis using porcine longissimus dorsi (LD) muscles. In the LD of pigs raised outdoors, the expression of myosin heavy chain (MyHC)1 (slow-twitch fiber marker protein) was significantly increased compared with that of MyHC1 in pigs raised in an indoor pen, suggesting that rearing outdoors could be considered as an exercise treatment. These LD samples were subjected to metabolomic analysis for examining the profile of most primary and secondary metabolites. We found that the sex of the animal and exercise stimulation had a strong influence on the metabolomic profile in the porcine skeletal muscles, and this difference in the metabolomic profile is likely in part due to the changes in the muscle fiber type. We also examined the effects of cooking (70 °C for 1 h). The effect of exercise on the metabolomic profile was also maintained in the cooked muscle tissues. Cooking treatment resulted in an increase in some of the metabolite levels while decreasing in some other metabolite levels. Thus, our study could indicate the effect of the sex of the animal, exercise stimulus, and cooking on the metabolomic profile of pork meat. [ABSTRACT FROM AUTHOR]

Published
2020
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23. Implication of anti-inflammatory macrophages in regenerative moto-neuritogenesis: Promotion of myoblast migration and neural chemorepellent semaphorin 3A expression in injured muscle.

Author

Sakaguchi, Shohei, Shono, Jun-ichi, Suzuki, Takahiro, Sawano, Shoko, Anderson, Judy E., Do, Mai-Khoi Q., Ohtsubo, Hideaki, Mizunoya, Wataru, Sato, Yusuke, Nakamura, Mako, Furuse, Mitsuhiro, Yamada, Koji, Ikeuchi, Yoshihide, and Tatsumi, Ryuichi

Subjects
*ANTI-inflammatory agents, *MACROPHAGES, *MYOBLASTS, *CELL migration, *SEMAPHORINS, *MUSCLE injuries, *GENE expression
Abstract

Regenerative mechanisms that regulate intramuscular motor innervation are thought to reside in the spatiotemporal expression of axon-guidance molecules. Our previous studies proposed a heretofore unexplored role of resident myogenic stem cell (satellite cell)-derived myoblasts as a key presenter of a secreted neural chemorepellent semaphorin 3A (Sema3A); hepatocyte growth factor (HGF) triggered its expression exclusively at the early-differentiation phase. In order to verify this concept, the present study was designed to clarify a paracrine source of HGF release. In vitro experiments demonstrated that activated anti-inflammatory macrophages (CD206-positive M2) produce HGF and thereby promote myoblast chemoattraction and Sema3A expression. Media from pro-inflammatory macrophage cultures (M1) did not show any significant effect. M2 also enhanced the expression of myoblast-differentiation markers in culture, and infiltrated predominantly at the early-differentiation phase (3–5 days post-injury); M2 were confirmed to produce HGF as monitored by in vivo/ex vivo immunocytochemistry of CD11b/CD206/HGF-positive cells and by HGF in situ hybridization of cardiotoxin- or crush-injured tibialis anterior muscle, respectively. These studies advance our understanding of the stage-specific activation of Sema3A expression signaling. Findings, therefore, encourage the idea that M2 contribute to spatiotemporal up-regulation of extracellular Sema3A concentrations by producing HGF that, in turn, stimulates a burst of Sema3A secretion by myoblasts that are recruited to site of injury. This model may ensure a coordinated delay in re-attachment of motoneuron terminals onto damaged fibers early in muscle regeneration, and thus synchronize the recovery of muscle-fiber integrity and the early resolution of inflammation after injury. [ABSTRACT FROM AUTHOR]

Published
2014
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24. History and development of staining methods for skeletal muscle fiber types.

Author

Sawano S and Mizunoya W

Subjects
Animals, Antibodies, Monoclonal, Immunohistochemistry, Muscle, Skeletal metabolism, Myosins metabolism, Staining and Labeling, Muscle Fibers, Skeletal metabolism, Myosin Heavy Chains metabolism
Abstract

The contractile and metabolic properties of skeletal muscles depend on the composition of muscle fibers. There are two major fiber types: type 1 and type 2. Type 2 fibers are further subdivided into type 2A, 2X, and 2B fibers. Muscle fiber type composition is an important property that affects sports performance and metabolic ability in humans, and meat quality in domestic animals. In this review, we summarize the history of muscle fiber type classification based on various staining methods for skeletal muscle sections. The history illustrates the development of an experimental method to detect myosin heavy chain (MyHC) proteins, which are the most common marker molecules for muscle fiber type. Metabolic enzymes, such as nicotinamide adenine dinucleotide-tetrazolium reductase and succinate dehydrogenase are also described for histochemical staining combined with myosin ATPase staining. We found an improvement in the quality of antibodies used for immunostaining of MyHC, from polyclonal antibodies to monoclonal antibodies (mAbs) and then to mAbs produced by synthetic peptides as antigens. We believe that the information presented herein will assist researchers in selecting optimal staining methods, dependent on the experimental conditions and purposes.

Published
2022
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25. Effect of Gender, Rearing, and Cooking on the Metabolomic Profile of Porcine Muscles.

Author

Sawano S, Oza K, Murakami T, Nakamura M, Tatsumi R, and Mizunoya W

Abstract

To clarify the relationship between the fiber type composition and meat quality, we performed metabolomic analysis using porcine longissimus dorsi (LD) muscles. In the LD of pigs raised outdoors, the expression of myosin heavy chain (MyHC)1 (slow-twitch fiber marker protein) was significantly increased compared with that of MyHC1 in pigs raised in an indoor pen, suggesting that rearing outdoors could be considered as an exercise treatment. These LD samples were subjected to metabolomic analysis for examining the profile of most primary and secondary metabolites. We found that the sex of the animal and exercise stimulation had a strong influence on the metabolomic profile in the porcine skeletal muscles, and this difference in the metabolomic profile is likely in part due to the changes in the muscle fiber type. We also examined the effects of cooking (70 °C for 1 h). The effect of exercise on the metabolomic profile was also maintained in the cooked muscle tissues. Cooking treatment resulted in an increase in some of the metabolite levels while decreasing in some other metabolite levels. Thus, our study could indicate the effect of the sex of the animal, exercise stimulus, and cooking on the metabolomic profile of pork meat.

Published
2019
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26. Effect of 48-h food deprivation on the expressions of myosin heavy-chain isoforms and fiber type-related factors in rats.

Author

Mizunoya W, Sawano S, Iwamoto Y, Sato Y, Tatsumi R, and Ikeuchi Y

Subjects
Animals, Forkhead Transcription Factors metabolism, Ion Channels genetics, Ion Channels metabolism, Lipoprotein Lipase genetics, Lipoprotein Lipase metabolism, Male, Mitochondrial Proteins genetics, Mitochondrial Proteins metabolism, Muscle, Skeletal metabolism, Nerve Tissue Proteins metabolism, Oxidation-Reduction, Peroxisome Proliferator-Activated Receptor Gamma Coactivator 1-alpha, Phosphorylation, Protein Isoforms, RNA, Messenger metabolism, Rats, Rats, Wistar, Transcription Factors genetics, Uncoupling Protein 3, Fatty Acids metabolism, Food Deprivation physiology, Muscle Fibers, Fast-Twitch metabolism, Muscle Fibers, Slow-Twitch metabolism, Myosin Heavy Chains metabolism, Transcription Factors metabolism
Abstract

The primary aim of this study was to examine the effects of 48-h food deprivation on rat skeletal muscle fiber type, according to myosin heavy-chain (MyHC) isoform composition and some metabolism-related factors in both slow-type dominant and fast-type dominant muscle tissues. Male Wistar rats (7 wk old) were treated with 48-h food deprivation or ad libitum feeding as control. After the treatment, the soleus muscle (slow-type dominant) and the extensor digitorum longus (EDL, fast-type dominant) were excised. We found that 48-h food deprivation did not affect MyHC composition in either the soleus or EDL, compared with fed rats by electrophoretic separation of MyHC isoforms. However, 48-h food deprivation significantly increased the mRNA expression of fast-type MyHC2B in the EDL muscle. Moreover, food deprivation increased fatty acid metabolism, as shown by elevated levels of related serum energy substrates and mRNA expression of mitochondrial uncoupling protein (UCP) 3 and lipoprotein lipase (LPL) in both the soleus and EDL. UCP3 and LPL are generally expressed at higher levels in slow-type fibers. Furthermore, we found that food deprivation significantly decreased the protein amounts of PGC1α and phosphorylated FOXO1, which are known as skeletal muscle fiber type regulators. In conclusion, 48-h food deprivation increased mRNA expression of fast-type MyHC isoform and oxidative metabolism-related factors in EDL, whereas MyHC composition at the protein level did not change in either the soleus or EDL.

Published
2013
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