Effect of Thymoquinone on skeletal muscle regeneration via assessment of Pax-7 and Myo-D expression in the DMBA-treated hamster pouch / Efeito da Timoquinona na regeneração muscular esquelética através da avaliação da expressão das proteínas Pax-7 e Myo-D em bolsa jugal de hamsters tratados com DMBA

Objective: Pax-7 and Myo-D regulate satellite cells' activation and differentiation, thus muscle regeneration following damage. This research aimed to investigate the effect of Thymoquinone (TQ) on skeletal muscle regeneration following 7,12-dimethylbenz-(a)-anthracene (DMBA)-induced injury in the hamster buccal pouch via immunohistochemical assessment of Pax-7 and Myo-D expression. Material and Methods: 65 male golden Syrian hamsters were divided into 3 groups: Group 1: (n=5) received no treatment. Group 2: (n=20) served as a positive control. The left buccal pouches were painted with the carcinogen 3/week/ 6weeks. Group 3: (n=40) were subdivided into two equal sub-groups as follows: Group 3a: (n=20) were given one i.p. TQ injection. Group 3b: (n=20) were given two i.p. TQ injections. Five animals from each group (2 and 3) were euthanized at 24, 48 hrs, one, and two weeks after the last injection. A blood sample (2 ml) was withdrawn for assessment of TNF-α levels in serum. Serial sections of the pouches were examined histologically (H&E), and immunohistochemically (IHC) for the detection of Pax-7 and Myo-D proteins. Results: double i.p injections of TQ resulted in a significant elevation in the level of TNF-α from the second-day post-injection with a progressive formation of the muscle fibers (MFs) and mononuclear cells (MNCs) around the deeper blood vessels. At 14 days, no statistically significant difference was found between this group and group '2', while the difference remained significant compared to groups '1' and '3a'. The muscle fibers were more mature and compact. IHC results showed positive expression of the perivascular mononuclear cells (MNCs) to both Pax-7 and Myo-D with positive reactivity of the peripheral nuclei of muscle fibers to Pax-7 compared to the negative reaction in the positive control group. Conclusion: early and two TQ injections had a promising effect on the induction of striated muscle regeneration, mainly by non-myogenic stem cells (AU)

Objetivo: Pax-7 e Myo-D regulam a ativação e diferenciação de células satélites durante a regeneração muscular pós-trauma. Assim, objetivamos investigar o efeito da timoquinona (TQ) na regeneração muscular esquelética após injúria causada por 7,12 dimetilbenzantraceno (DMBA) em bolsa jugal de hamsters, através da análise imuno-histoquímica de Pax-7 e Myo-D. Material e Métodos: 65 hamsters-sírios machos foram divididos em 3 grupos: Grupo 1: (n=5) controle negativo, sem tratamento. Grupo 2: (n=20) controle positivo. A bolsa jugal do lado esquerdo recebeu aplicação do DMBA por 3 e 6 semanas. Grupo 3: (n=40) receberam aplicação de DMBA e foram então subdivididos em: Grupo 3a: (n=20) que recebeu 1 injeção intraperitoneal (ip) de TQ e Grupo 3b: (n=20) que recebeu duas injeções ip de TQ. Cinco animais dos grupos 2 e 3 foram eutanasiados em 24 horas, 48 horas, 7 dias e 14 dias após a administração de DMBA e da última injeção de TQ. Amostras de sangue (2 ml) foram coletadas para avaliação dos níveis séricos de TNF-α. Cortes seriados da bolsa jugal dos animais foram analisados histologicamente (H&E), e através de imunohistoquimica (IHC) para avaliação das proteínas Pax-7 e Myo-D. Resultados: duas injeções ip de TQ aumentaram os níveis séricos TNF-α à partir do segundo dia pós-administração com formação progressiva de fibras musculares (MFs) e células mononucleares (MNCs) ao redor dos vasos sanguíneos. No dia 14, não houve diferença estatística entre o grupo 3b e o grupo 2, enquanto a diferença permaneceu entre o grupo 1 e 3a. As MFs apresentavam-se mais maduras e compactas. A IHC mostrou expressão de Pax-7 e Myo-D nas MNCs ao redor dos vasos, e houve expressão nuclear de Pax-7 nas MFs no grupo 2. Conclusão: ambos regimes de administração do TQ, 1 ou 2 aplicações ip, apresentaram efeito promissor na indução da regeneração muscular esquelética, principalmente nas células não-miogênicas.(AU)

Differential expression patterns of myogenic regulatory factors in the postnatal longissimus dorsi muscle of Jeju Native Pig and Berkshire breeds along with their co-expression with Pax7

BACKGROUND: Myogenic regulatory factors (MRFs) such as MyoD, Myf6 and Myf5 play a vital role in the growth and development of muscles. Jeju Native Pig (JNP) is the top ranker in Korea amongst the indigenous livestock reared for meat purpose. Few studies covering transcript abundance of the MRFs and related to their co-expression with Pax7 in JNP have been conducted. Despite having better quality pork, JNP does not have a comparative growth rate with respect to western breeds. Therefore, the present study was designed with the objective to study the relative transcript levels of MRFs in the postnatal myogenesis of longissimus dorsi muscles in JNP and Berkshire breeds. RESULTS: Relative transcript levels were analyzed by qRT-PCR and blot expression analysis through Western blotting. Immunocytochemistry was performed to analyze their expressions at cellular levels. ToppCluster aided in the analysis of gene ontology of biological processes. The quantitative transcript levels of MyoD and Pax7 were significantly (P < 0.05) higher in Berkshire than in JNP. Myotube formation was observed under the co-expression of MyoD and Pax7. ToppCluster helped in the understanding of the linking of biological processes of the MRFs with the different signaling pathways. MyBPH had significantly (P < 0.05) high transcript levels during the chosen age groups in JNP than Berkshire. CONCLUSIONS: The current study can be helpful in understanding the genetic basis for myogenesis in postnatal stage. Moreover, it can act as stepping stone for the identification of marker genes related to body growth and meat quality in JNP.

Lack of dystrophin influences muscle inflammation but not myogenic regulatory factors after eccentric exercise in mdx mice

Abstract Aim: To investigate the consequences of chronic eccentric exercise in histopathology, inflammatory, and myogenic regulatory factors response in gastrocnemius muscle of X-chromosome-linked muscular dystrophy (mdx) mice. Method: Male mdx and control mice (C57BL/10 lineage) were distributed in the following groups: Sedentary Control (SC), Trained Control (TC), Sedentary Mdx (S-Mdx), and Trained Mdx (T-Mdx). Trained animals were subjected to downhill running for 7 weeks. Gastrocnemius was submitted to histopathological analysis and immunoexpression of Cyclooxygenase-2 (COX-2) and myogenic regulatory factors (myoD and myogenin). Results: The exercise influenced inflammation response as demonstrated by the increased COX-2 immunoexpression in T-Mdx. Interestingly, Myogenic regulatory factors revealed that the lack of dystrophin has not been influenced myoD and the increase of myogenin occurred due to exercise and was not aggravated by the absence of dystrophin. Conclusion: In conclusion, an eccentric exercise in gastrocnemius of mdx mice was characterized by an intense inflammatory process without myogenic response. These findings suggest that special attention should be given to inflammatory aspects related to COX-2 associated with a decrease of myoD expression, as biomarkers in motor rehabilitation programs.

Rheumatoid arthritis-increased gene expressions in muscle atrophy are restored back to control as a response to acute resistance exercise / Estímulo agudo de musculação promove regulação de genes alterados pela atrofi a muscular

This study had as objective to analyze the acute eff ects of resistance exercise (RE) on the mRNA levels of the following genes (MyoD, myogenin, IGF-1, atrogin-1, MuRF-1, and myostatin) in rheumatoid arthritis (experimental arthritis). Therefore, 26 females rats were randomly allocated into four groups, control (CT, n=7), exercise (Ex, n=6), rheumatoid arthritis (RA, n=6) and RA with exercise (RAEx, n=7). Met-BSA was injected into the tibiotarsal joint in the RA and RAEx groups. After 15 days from injection, the animals were submitted to an acute bout of RE and six hours post protocol the animals were euthanized. We evaluated the joint thickness, infl ammation score, cross-sectional area (CSA) of gastrocnemius muscle fi bers and mRNA expression of the IGF-1, MyoD, myogenin, myostatin, MuRF-1, atrogin-1 and GAPDH. It was observed that the joint thickness and score strongly increased in arthritic rats (p <0.001) while the CSA decreased (p ≤ 0.05). Increased mRNA levels of IGF-1 (2.0 fold), myostatin (4.5 fold), atrogin-1 (2.5 fold), MyoD (3.7-fold) and myogenin (5 fold) were observed in muscle of arthritic rats. The mRNA expression of myostatin, atrogin-1, MyoD and myogenin decreased in the RAEx group. In this way, we can conclude that experimental arthritis-increased gene expressions in muscle atrophy myostatin, atrogin-1, MyoD and myogenin) are restored back to control as a response to acute RE....(AU)

O presente estudo teve como objetivo analisar o efeito agudo do Exercício com pesos sobre os níves de mRNA de genes envolvidos no anabolismo ou catabolismo muscular em um modelo experimental de Artrite Reumatóide. Para tanto, 26 ratas fêmeas foram randomicamente alocadas em quatro grupos, controle (CT, n=7), Exercício (Ex, n=6), Artrite Reumatóide (AR, n=6) e Artrite Reumatóide com exercício (AREx, n=7). Uma substância contendo Albumina bovina metilada foi injetada na articulação tíbio-tarsal nos grupos AR e AREx para indução da Artrite Reumatóide. Após 15 dias da injeção, os animais foram submetidos a um estímulo agudo de treinamento com pesos e 6 horas após o exercício os animais foram eutanasiados. Nós avaliamos a espessura da articulação, escore de infl amação, a área de secção transversa (AST) das fi bras do músculo Gastrocnêmio e a mRNA de IGF-1, MyoD, Myogenina (genes envolvidos no anabolismo muscular), e MuRF-1, atrogina-1 (genes envolvidos no catabolismo muscular), além do gene controle , GAPDH. Foi observado que a espessura articular e o escore de infl amação aumentaram fortemente nas ratas induzidas a Artrite Reumatóide (p <0,001), enquanto a AST reduziu (p ≤ 0,05). Um aumento nos níveis de mRNA de IGF-1 (2,0 vezes), miostatina (4,5 vezes), atrogina-1 (2,5 vezes), MyoD (3,7 vezes) e miogenina (5 vezes) foi observado no músculo das ratas induzidas a Artrite Reumatóide. mRNA de miostatina, atrogina-1, MyoD e miogenina reduziu no grupo RAEx. Desta forma, podemos concluir, que o modelo experimental de Artrite Reumatóide induziu um aumento da expressão de genes durante a atrofi a muscular (myostatin, atrogin-1, MyoD and myogenin) e que estas alterações foram reguladas pelo Exercício com peso....(AU)

Potential gene regulatory role for cyclin D3 in muscle cells.

Cyclin D3 is important for muscle development and regeneration, and is involved in post-mitotic arrest of muscle cells. Cyclin D3 also has cell-cycle-independent functions such as regulation of specific genes in other tissues. Ectopic expression of cyclin D3 in myoblasts, where it is normally undetectable, promotes muscle gene expression and faster differentiation kinetics upon serum depletion. In the present study, we investigated the mechanistic role of cyclin D3 in muscle gene regulation. We initially showed by mutational analysis that a stable and functional cyclin D3 was required for promoting muscle differentiation. Using chromatin immunoprecipitation assays, we demonstrated that expression of cyclin D3 in undifferentiated myoblasts altered histone epigenetic marks at promoters of muscle-specific genes like MyoD, Pax7, myogenin and muscle creatine kinase but not non-muscle genes. Cyclin D3 expression also reduced the mRNA levels of certain epigenetic modifier genes. Our data suggest that epigenetic modulation of muscle-specific genes in cyclin-D3-expressing myoblasts may be responsible for faster differentiation kinetics upon serum depletion. Our results have implications for a regulatory role for cyclin D3 in muscle-specific gene activation.

Small activating RNA induces myogenic differentiation of rat adipose-derived stem cells by upregulating MyoD

ABSTRACTPurpose:RNA activation (RNAa) is a mechanism of gene activation triggered by promoter-targeted small double stranded RNAs (dsRNAs), also known as small activating RNAs (saRNAs). Myogenic regulatory factor MyoD is regarded as the master activator of myogenic differentiation cascade by binding to enhancer of muscle specific genes. Stress urinary incontinence (SUI) is a condition primarily resulted from urethral sphincter deficiency. It is thus expected that by promoting differentiation of adipose-derived stem cells (ADSCs) into myoblasts by activating MyoD gene through RNAa may offer benefits to SUI.Materials and Methods:Rats ADSCs were isolated, proliferated in vitro, and identified by flow cytometry. Purified ADSCs were then transfected with a MyoD saRNA or control transfected. Real-time polymerase chain reaction (RT-PCR) and western blotting were used to detect MyoD mRNA and protein expression, respectively. Immunocytochemical staining was applied to determine the expression of desmin protein in transfected cells. Cell viability was measured by using CellTiter 96® AQueous One Solution Cell Proliferation Assay kit.Results:Transfection of a MyoD saRNA (dsMyoD) into ADSCs significantly induced the expression of MyoD at both the mRNA and protein levels, and inhibited cell proliferation. Desmin protein expression was detected in dsMyoD treated ADSCs 2 weeks later.Conclusion:Our findings show that RNAa mediated overexpression of MyoD can promote transdifferentiation of ADSCs into myoblasts and may help treat stress urinary incontinence (SUI)–a condition primarily resulted from urethral sphincter deficiency.

Effects of Sunphenon and Polyphenon 60 on proteolytic pathways, inflammatory cytokines and myogenic markers in H2O2-treated C2C12 cells.

The effect of Sunphenon and Polyphenon 60 in oxidative stress response, myogenic regulatory factors, inflammatory cytokines, apoptotic and proteolytic pathways on H2O2-induced myotube atrophy was addressed. Cellular responses of H2O2-induced C2C12cells were examined, including mRNA expression of myogenic regulatory factors, such as MyoD and myogenin, inflammatory pathways, such as TNF-α and NF-kB, as well as proteolytic enzymes, such as μ- calpain and m-calpain. The pre-treatment of Sunphenon (50 μg/mL)/Polyphenon 60 (50 μg/mL) on H2O2-treated C2C12 cells significantly down-regulated the mRNA expression of myogenin and MyoD when compared to those treated with H2O2-induced alone. Additionally, the mRNA expression of μ-calpain and m-calpain were significantly (p<0.05) increased in H2O2-treated C2C12 cells, whereas pre-treatment with Sunphenon/Polyphenon significantly down-regulated the above genes, namely μ-calpain and m-calpain. Furthermore, the mRNA expression of TNF-α and NF-kB were significantly increased in H2O2-treated C2C12 cells, while pre-treatment with Sunphenon (50 μg/mL)/ Polyphenon 60 (50 μg/mL) significantly (p<0.05) down-regulated it when compared to the untreated control group. Subsequent analysis of DNA degeneration and caspase activation revealed that Sunphenon (50 μg/mL)/Polyphenon 60 (50 μg/mL) inhibited activation of caspase-3 and showed an inhibitory effect on DNA degradation. From this result, we know that, in stress conditions, μ-calpain may be involved in the muscle atrophy through the suppression of myogenin and MyoD. Moreover, Sunphenon may regulate the skeletal muscle genes/promote skeletal muscle recovery by the up-regulation of myogenin and MyoD and suppression of μ-calpain and inflammatory pathways and may regulate the apoptosis pathways. Our findings suggest that dietary supplementation of Sunphenon might reduce inflammatory events in muscle-associated diseases, such as myotube atrophy.

Low-level laser therapy modulates musculoskeletal loss in a skin burn model in rats

PURPOSE: To investigate the effectiveness of low-level laser therapy (LLLT) on gastrocnemius muscle morphology and Myod imunoexpression in a model of dorsal burn in rats. METHODS: Sixteen male Wistar rats were distributed into two groups: control group (CG): rats submitted to scald burn injury without treatment and laser treated group (LG): rats submitted to scald burn injury and treated with laser therapy. Fourteen days post-surgery, gastrocnemius muscle was evaluated being the specimens stained with HE and morphometric data was evaluated. MyoD expression was assessed by immunohistochemistry. RESULTS: The results showed that laser treated animals presented more organized tissue morphology compared to the non-treated animals, with a higher number of nucleus in the fibers. Also, the cross sectional area of the fibers and the MyoD immunoexpression in the laser treated groups was higher. CONCLUSION: Low-level laser therapy had positive effects on gastrocnemius muscle, improving tissue muscle morphology, increasing cross sectional area and MyoD immunoexpression. .

Os efeitos do laser de baixa potência no processo de reparo muscular após criolesão em ratos / The effects of low-level laser therapy on muscle healing process after cryolesion

O objetivo deste estudo foi verificar os efeitos da laserterapia de baixa potência no comprimento de onda ?=780nm entre diferentes períodos de tratamento 7, 14 e 21 dias e verificar a dose (10J/cm2 ou 50J/cm2) que promove melhor reparo muscular através das análises histopatológicas e imunohistoquímicas. Foram utilizados 54 ratos machos divididos em 3 grupos: GC: grupo controle (criolesão, sem tratamento); G10: criolesão do músculo tibial anterior (TA) e tratados com laser dose 10J/cm² e G50: criolesão do músculo TA e tratados com laser dose 50J/cm² que foram subdivididos em 3 subgrupos (n=6): 7, 14 e 21 dias de tratamento. Os achados histopatológicos revelaram maior organização das fibras musculares dos grupos tratados com laser 10J/cm² e 50J/cm² durante os períodos 7 e 14 dias em relação ao grupo controle; no período 21 dias os grupos apresentaram semelhanças na reparação tecidual. Em relação à área da lesão os grupos tratados com laser 10J/cm² e 50J/cm² durante 7 dias obtiveram diminuição significativa (p ? 0.05) da área da lesão em relação ao grupo controle, sendo que os grupos 14 e 21 dias não apresentaram diferenças significativas entre eles. Na contagem dos vasos o grupo tratado com laser 10J/cm² no 14° dia apresentou aumento dos vasos em relação ao grupo tratado com dose 50J/cm², mas não em relação ao grupo controle. Nos tempos de 7 e 21 dias os grupos não apresentaram diferença significativa entre si. Com relação às análises imunohistoquímicas da myoD no período de 7 dias os grupos tratados com laser 10J/cm² e 50J/cm² apresentaram maior imunomarcação comparada com o grupo controle, no período 14 e 21 dias a imunomarcação estava ausente.

The objective of this study was to assess the effects of 780nm low-level laser therapy at different periods of 7, 14 and 21 days after cryolesion, including the dose (10 or 50J/cm2) to promote a better muscle repair evidenced by histopathological and immumohistochemical analyses. Fifty-four male rats were divided into three groups: injured control group (CG) - injured animals without any treatment; injured 780nm laser treated group, at 10 J/cm² (G10) and injured 780nm laser treated group, at 50 J/cm² (G50). Each group was divided into 3 subgroups (n=6): 7, 14 and 21 days post-injury. Histopathological findings revealed better-organized muscle fibers in the G10 and G50 during the periods of 7 and 14 days compared to CG. The G10 and G50 during 7 days showed a significant reduction (p? 0.05) of lesion area compared to CG, without differences between groups treated for 14 and 21 days. The G10 showed an increase of the amount of vessels after 14 days compared to the G50, but not in relation to controls. With regard to the immumohistochemical analyses of the MyoD factor, The G10 and G50 during 7 days showed higher concentrations of immunomarkers than controls.

Efeito da natação na expressão de fatores regulatórios miogênicos durante o reparo do musculoesquelético de rato / Swimming influence on the expression of myogenic regulatory factors during skeletal muscle repair of rats

CONTEXTUALIZAÇÃO: O músculo esquelético tem a capacidade de adaptação frente a estímulos variados, tais como atividade contrátil, danos diretos e indiretos. Uma das modalidades terapêuticas utilizadas na reabilitação de disfunções musculoesqueléticas que vem demonstrando resultados positivos no tratamento e na prevenção de várias patologias é a terapia aquática. OBJETIVO: Analisar o efeito da natação na expressão dos fatores regulatórios miogênicos MyoD e miogenina durante o reparo do músculo esquelético de rato após criolesão. MÉTODOS: Foram utilizados 40 ratos Wistar, divididos em 04 grupos: (1) Controle; (2) "Sham" (sem lesão, submetido a exposição do músculo tibial anterior (TA); (3) Criolesionado e (4) Criolesionado e submetido à natação, analisados em 7, 14 e 21 dias. A criolesão foi realizada por meio de duas aplicações, utilizando um bastão metálico de extremidade plana, resfriado em nitrogênio líquido diretamente no ventre muscular. O protocolo consistiu de sessões de natação com duração de 90 minutos, realizadas 6 vezes por semana. Ao término do protocolo os animais foram eutanasiados, os músculos TA foram removidos e o RNA total foi extraído. Em seguida, foi obtido o cDNA para a realização do PCR em tempo real utilizando primers específicos para MyoD e miogenina. RESULTADOS: Os resultados evidenciaram uma redução na expressão de miogenina após 7 dias nos grupos criolesionado com (p<0.01) e sem (p<0.01) natação e após 14 no grupo criolesionado com natação (p<0.05) com relação aos grupos controle e "sham", respectivamente. Não encontramos diferenças entre os grupos criolesionados com (p>0.05) e sem natação (p>0.05). Com relação à expressão de MyoD não houve diferença entre os grupos avaliados. CONCLUSÃO: A natação não influenciou a expressão dos fatores regulatórios miogênicos durante o processo de reparo de músculo esquelético de rato após criolesão.

BACKGROUND: Skeletal muscle has the ability to adapt to several stimuli, such as contractile activity as well as direct and indirect damage. Aquatic therapy has been used in the rehabilitation of musculoskeletal disorders. In addition, it has demonstrated positive results in the therapeutic process and preventing several diseases.. OBJECTIVE: The aim of the present study was to analyze the effect of swimming on the expression of the myogenic regulatory factors MyoD and myogenin during the skeletal muscle repair process in rats following cryoinjury. METHODS: Forty Wistar rats were randomly divided into four groups: 1) Control; 2) Sham - non-muscle damaged, submitted to procedure for exposure of the tibialis anterior (TA) muscle; 3) Cryoinjured; and 4) Cryoinjured and submitted to swimming. Analyses were carried out at 7, 14 and 21 days. Cryoinjury was performed with two applications of the flat end of a metal rod previously cooled in liquid nitrogen directly to the belly of the TA muscle. The protocol consisted of 90-minute swimming sessions six times a week. At the end of the protocol, the animals were euthanized and the TA muscles were removed. Total RNA was extracted using the TRIzol reagent. Next, cDNA was obtained to perform real-time PCR using specific primers for MyoD and myogenin. RESULTS: The results showed a reduction in the expression of myogenin in the groups cryoinjury with p<0.01and without p <0.01 swimming after 7 days, and in group cryoinjury with swimming (p<0.05) after 14 days respect to the control groups and "sham", respectively. There were no differences between groups cryoinjury with (p> 0.05) and without (p>0.05) swimming. Regarding the expression of MyoD there was no difference between the groups. CONCLUSION: Swimming did not affect the expression of myogenic regulatory factors during the skeletal muscle repair process in rats following cryoinjury.

THE CIRCADIAN CLOCK AND SKELETAL MUSCLE FUNCTION / 体力科学

Circadian rhythms are approximate 24-hour biological cycles that synchronize the timing of an organism's behavior and physiology to daily environmental changes. This endogenously generated temporal coordination has been experimentally shown to provide an adaptive advantage by enhancing an organism's ability to anticipate daily changes in light, temperature and humidity etc. The molecular mechanism responsible for generating circadian rhythms is a highly conserved gene regulatory network composed of transcriptional-translational feedback loops referred to as the Core-Clock. In mammals, the proteins encoded by Core-Clock genes, Bmal1 and Clock, dimerize to drive transcription of Period and Cryptochrome and the protein products of these genes down-regulate BMAL1 and CLOCK function. BMAL1:CLOCK heterodimers also transcriptionally regulate a group of genes referred to as clock-controlled genes which are believed to be necessary for maintenance of normal cell physiology.In this review, the bases of the circadian rhythms regulation in the central/peripheral tissues are discussed. Particular emphasis has been placed on understanding of circadian regulation of skeletal muscle structure and function. Recently, tissue-specific circadian transcriptome including MyoD1, which is the well-known myogenic lineage regulator, were identified in skeletal muscle. Understanding the molecular, physiological and biophysical mechanisms through which the Core-Clock genes and the tissue-specific circadian transcriptome maintain skeletal muscle structure/function is of great significance with broad translational implications associated with chronic disease, metabolic failure and disuse.

Acetyl-CoA carboxylase beta expression mediated by MyoD and muscle regulatory factor 4 is differentially affected by retinoic acid receptor and retinoid X receptor

Mammals have two major isoforms of acetyl-CoA carboxyase (ACC). The 275 kDa beta-form (ACC beta) is predominantly in heart and skeletal muscle while the 265 kDa alpha-form (ACC alpha) is the major isoform in lipogenic tissues such as liver and adipose tissue. ACC alpha is thought to control fatty acid oxidation by means of the ability of malonyl-CoA to inhibit carnitine palmitoyl-CoA transferase-1 (CPT-1), which is a rate-limiting enzyme of fatty acid oxidation in mitochondria. Previously, it was reported that MyoD and other muscle regulating factors (MRFs) up-regulate the expression of ACC beta by interactions between these factors and several cis-elements of ACC beta promoter. We described here that ACC beta expression mediated by MRFs is regulated by retinoic acids. Endogenous expression of ACCb in differentiated H9C2 myotube was significantly increased by retinoic acid treatment. However, on transient transfection assay in H9C2 myoblast, ACC beta promoter activity was suppressed by RXRa and more severely by RAR alpha. These effects on ACCb expression in myoblasts and myotubes by RXR alpha and RAR alpha seem to be mediated by their interactions with MRFs because no consensus sequence for RXR alpha and RAR alpha has been found in ACC beta promoter and retinoic acid receptors did not affect this promoter activities by itself. In transient transfection in NIH3T3 fibroblast, the activation of ACC beta promoter by MyoD, main MRF in myoblast, was significantly suppressed by RAR alpha and to a less extent by RXR alpha while the RXR alpha drastically augmented the activation by MRF4, major MRF in myotube. These results explained that retinoic acids differentially affected the action of MRFs according to their types and RXR alpha specially elevates the expression of muscle specific genes by stimulating the action of MRF4.

Repairing effect of sarcoblasts from mesenchymal stem cells induced by MyoD transfection on muscle injury / 解放军医学杂志

Objective To observe the repairing effects of myoblasts from mesenchymal stem cells induced by MyoD transfection on muscle injury, and to explore its mechanism. Methods One hundred and sixty male SCID mice were randomly assigned into 4 groups [normal group, control group with injury, implantation with mesenchymal stem cells (MSCs) group, and implantation with myoblasts group]. MSCs were transfected by pIRES2-EGFP-MyoD and differentiated into myoblasts. Myoblasts and MSCs were injected respectively into the muscular tissue injuried by cardiotoxin. The repairing effect in injuried muscles, which were injected with myoblasts and MSCs, was observed 1, 2, 4 and 6 weeks after the injection. Results The muscular tissue injury model was successfully reproduced. Both MSCs and myoblasts showed obvious repairing effects on the injured muscular tissue, and the strength of muscular tissue in myoblasts group was stronger than that in MSCs group. Western blot assay showed that MyoD expression in myoblasts group was much higher than that in both MSCs and control groups, the expressions of JNK1 and ERK2 were up-regulated in myoblasts group, and the p38 expression was down regulated significantly in the 1st week, but no significant difference was found when compared with those of the normal group at the 6th week. Conclusion Myoblasts transdifferentiated from MSCs induced by MyoD can repair the injuried muscular tissue effectively. JNK1, p38 and ERK2 play important roles in the repairing process.