Satellite cell activation in stretched skeletal muscle and the role of nitric oxide and hepatocyte growth factor

Tatsumi, Ryuichi; Liu, Xiaosong; Pulido, Antonio Jesús Pérez; Morales, Mark; Sakata, Tomowa; Dial, Sharon M.; Hattori, Akihito; Ikeuchi, Yoshihide; Allen, Ronald E.

doi:10.1152/ajpcell.00513.2005

Cited by 189 publications

(167 citation statements)

References 29 publications

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“…Interestingly, nitric oxide synthase 1 (Nos1) was found to be downregulated in FRG1 muscles. Nos1 activity inhibition by pharmacological treatment or a knockout approach reduces the activation of satellite cells and leads to muscle regeneration deficit (Anderson, 2000;Tatsumi et al, 2002;Tatsumi et al, 2006). Therefore, it is tempting to speculate that the FRG1 satellite cell defects could be associated with this pathway.…”

Section: Discussionmentioning

confidence: 99%

Facioscapulohumeral muscular dystrophy region gene 1 over-expression causes primary defects of myogenic stem cells

Xynos

Neguembor

Caccia

et al. 2013

Journal of Cell Science

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SummaryOverexpression of facioscapulohumeral muscular dystrophy region gene 1 (FRG1) in mice, frogs and worms leads to muscular and vascular abnormalities. Nevertheless, the mechanism that follows FRG1 overexpression and finally leads to muscular defects is currently unknown. Here, we show that the earliest phenotype displayed by mice overexpressing FRG1 is a postnatal muscle-growth defect. Long before the development of muscular dystrophy, FRG1 mice also exhibit a muscle regeneration impairment. Ex vivo and in vivo experiments revealed that FRG1 overexpression causes myogenic stem cell activation and proliferative, clonogenic and differentiation defects. A comparative gene expression profiling of muscles from young pre-dystrophic wild-type and FRG1 mice identified differentially expressed genes in several gene categories and networks that could explain the emerging tissue and myogenic stem cell defects. Overall, our study provides new insights into the pathways regulated by FRG1 and suggests that muscle stem cell defects could contribute to the pathology of FRG1 mice.

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Section: Discussionmentioning

confidence: 99%

Facioscapulohumeral muscular dystrophy region gene 1 over-expression causes primary defects of myogenic stem cells

Xynos

Neguembor

Caccia

et al. 2013

Journal of Cell Science

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“…Two chemical mediators, nitric oxide (NO) and hepatocyte growth factor (HGF), and mechanical stretch (a culture model of exercise) activate SCs in mammals, as shown in cultures of dispersed SCs (Tatsumi et al, 2001;Tatsumi et al, 2002;Tatsumi et al, 2006;Tatsumi and Allen, 2008) and isolated fibers (Wozniak et al, 2003;Anderson and Wozniak, 2004;Wozniak and Anderson, 2007;Anderson et al, 2012;Anderson and Pilipowicz, 2002;Bischoff, 1975;Bischoff, 1986;Bischoff, 1990) and in vivo (Anderson, 2000;Anderson and Wozniak, 2004;Tatsumi and Allen, 2008). Calcium-dependent stretch-activated signals release NO from mechano-sensitive NOS-1μ, which induces HGF release from the extracellular matrix (Tatsumi et al, 2002;Yamada et al, 2006;Tatsumi et al, 2009;Hara et al, 2012).…”

Section: Introductionmentioning

confidence: 99%

Satellite cell activation and populations on single muscle-fiber cultures from adult zebrafish (Danio rerio)

Zhang

Anderson

2014

Journal of Experimental Biology

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Satellite cells (SCs), stem cells in skeletal muscle, are mitotically quiescent in adult mammals until activated for growth or regeneration. In mouse muscle, SCs are activated by nitric oxide (NO), hepatocyte growth factor (HGF) and the mechanically induced NO-HGF signaling cascade. Here, the SC population on fibers from the adult, ectothermic zebrafish and SC responsiveness to activating stimuli were assessed using the model system of isolated fibers cultured at 27 and 21°C. SCs were identified by immunostaining for the HGF receptor, c-met, and activation was determined using bromodeoxyuridine uptake in culture or in vivo. In dose-response studies, SC activation was increased by treatment with the NO-donor drug isosorbide dinitrate (1 mmol l −1 ) or HGF (10 ng ml −1 ) to maximum activation at lower concentrations of both than in previous studies of mouse fibers. HGF-induced activation was blocked by anti-c-met antibody, and reduced by culture at 21°C. The effect of cyclical stretch (3 h at 4 cycles per minute) increased activation and was blocked by nitric oxide synthase inhibition and reduced by culture at 21°C. The number of c-met+ SCs per fiber increased rapidly (by 3 h) after stretching. The character of signaling in SC activation on zebrafish fibers, in particular temperature-dependent responses to HGF and stretch, gives new insights into the influence of ectothermy on regulation of muscle growth in teleosts and suggests the use of the single-fiber model system to explore the basis of fiber hyperplasia and the conservation of regulatory pathways between species. KEY WORDS: Stem cells, Ectothermy, Proliferation, c-met, Hepatocyte growth factor INTRODUCTIONSkeletal muscle function in fish is fundamentally important for survival using high-and low-speed swimming (Fauconneau et al., 1995), and the zebrafish [Danio rerio (Hamilton 1822)], an ectothermic teleost, is an important vertebrate model for studying development, physiology and pathology (Lieschke and Currie, 2007). In teleosts, muscle mass [over 90% white fibers (Wakeling and Johnston, 1999)] grows by increases in fiber number and size (Bird and Mabee, 2003;Buckingham and Vincent, 2009). The combination of hyperplasia and hypertrophy is termed indeterminate growth (Fauconneau and Paboeuf, 2001;Rowlerson and Veggetti, 2001;Johnston, 2006), and the growth potential is strongly influenced by temperature (Steinbacher et al., 2011). By comparison, in postnatal mammals, fibers hypertrophy and show accretion of post-mitotic myonuclei, but fibers do not increase in number (Petrella et al., 2008;O'Connor and Pavlath, 2007). Satellite RESEARCH ARTICLEDepartment of Biological Sciences, University of Manitoba, Winnipeg, MB, Canada R3T 2N2. Anderson and Pilipowicz, 2002;Bischoff, 1975;Bischoff, 1986;Bischoff, 1990) and in vivo (Anderson, 2000;Anderson and Wozniak, 2004;Tatsumi and Allen, 2008). Calcium-dependent stretch-activated signals release NO from mechano-sensitive NOS-1μ, which induces HGF release from the extracellular matrix (Tatsumi et al., 2002;Y...

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“…Ambas as isoformas apresentaram aumento de expressão da NOS após o modelo de sobrecarga mecânica (18) . O NO também é um potente estimulador das células-satélite (19,20) . Consequentemente, além da hipótese da supercirculação, outro provável efeito da estimulação da síntese de NO sobre o processo de hipertrofia poderia ser modulado pela ativação das células-satélite.…”

Section: Discussionunclassified

Suplementação proteica não aumenta a concentração plasmática de óxido nítrico em homens saudáveis

Moraes

Aoki²,

Araújo

et al. 2009

Rev Bras Med Esporte

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Suplementos nutricionais, supostamente, capazes de potencializar a produção endógena de óxido nítrico (NO) têm experimentado crescente popularidade entre os indivíduos fisicamente ativos. Diante da carência de informações sobre o assunto, o objetivo do presente estudo foi avaliar o efeito de um suplemento comercial à base de proteínas e aminoácidos sobre a produção endógena de NO. Métodos: A amostra foi constituída de 12 homens sedentários, mas sem fatores de risco para doenças cardiovasculares. O protocolo de suplementação foi conduzido conforme o arranjo experimental duplo-cego cruzado. ABSTRACTNutritional supplements, theoretically able to increase endogenous nitric oxide (NO) production have experienced great popularity among physically active individuals. Aim: scientific evidence available regarding this issue is scarce. Therefore, the purpose of this study was to evaluate the effect of a dietary supplement commercialized as a nitric oxide booster. Materials and methods: twelve sedentary men with no risk factors for cardiovascular diseases were supplemented with placebo or protein in two different occasions. The present study was conducted in a cross double-blind design. In order to assess plasmatic NO concentration, blood samples were obtained before (24hs and immediately before) and after (30 and 60 minutes) consumption of placebo (PLA) or protein supplement (SP INTRODUÇÃOOs mecanismos responsáveis pela hipertrofia muscular, em resposta ao treinamento de força, não estão, totalmente, elucidados (1) . Estudos recentes sugerem que esse tipo de exercício promove o acúmulo de substâncias (ex.: lactato) no meio intra e extracelular, que seriam capazes de desencadear a ativação do sistema simpático e a liberação de hormônios hipofisários (2,3) . O acúmulo desses metabólitos seria responsável por traduzir a sobrecarga utilizada no treinamento em estímulo para a síntese proteica adaptativa (4) . Vale ressaltar que não existem estudos que relacionem o efeito das alterações agudas no perfil hormonal/metabólico em resposta ao treino de força e a adaptação crônica (longo prazo) induzida por esse tipo de treinamento físico (2) . Nesse contexto, várias teorias foram elaboradas para explicar como essas respostas agudas estimulariam a hipertrofia do músculo esquelético. Considerando os possíveis mecanismos fisiológi-cos envolvidos nesse processo, alguns autores propuseram a hipótese da supercirculação. Esta sugere que o incremento do fluxo sanguíneo para o músculo seria um dos estímulos que poderiam potencializar a hipertrofia (5) . No caso do treinamento de força, esse aumento na circulação ocorreria, predominantemente, ao término do exercício. Essa resposta resultaria em maior aporte de nutrientes e hormônios para o músculo, bem como a remoção acelerada de subprodutos do metabolismo.O NO é um vasodilatador endógeno que tem sido investigado, com crescente interesse, devido a seu possível envolvimento nos efeitos cardioprotetores promovidos pelo exercício (6) . Com base na hipótese da supercirculação, suplementos nutri...

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Satellite cell activation in stretched skeletal muscle and the role of nitric oxide and hepatocyte growth factor

Cited by 189 publications

References 29 publications

Facioscapulohumeral muscular dystrophy region gene 1 over-expression causes primary defects of myogenic stem cells

Facioscapulohumeral muscular dystrophy region gene 1 over-expression causes primary defects of myogenic stem cells

Satellite cell activation and populations on single muscle-fiber cultures from adult zebrafish (Danio rerio)

Suplementação proteica não aumenta a concentração plasmática de óxido nítrico em homens saudáveis

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