Implantation of muscle satellite cells overexpressing myogenin improves denervated muscle atrophy in rats

This study evaluated the effect of muscle satellite cells (MSCs) overexpressing myogenin (MyoG) on denervated muscle atrophy. Rat MSCs were isolated and transfected with the MyoG-EGFP plasmid vector GV143. MyoG-transfected MSCs (MTMs) were transplanted into rat gastrocnemius muscles at 1 week after surgical denervation. Controls included injections of untransfected MSCs or the vehicle only. Muscles were harvested and analyzed at 2, 4, and 24 weeks post-transplantation. Immunofluorescence confirmed MyoG overexpression in MTMs. The muscle wet weight ratio was significantly reduced at 2 weeks after MTM injection (67.17±6.79) compared with muscles injected with MSCs (58.83±5.31) or the vehicle (53.00±7.67; t=2.37, P=0.04 and t=3.39, P=0.007, respectively). The muscle fiber cross-sectional area was also larger at 2 weeks after MTM injection (2.63×103±0.39×103) compared with MSC injection (1.99×103±0.58×103) or the vehicle only (1.57×103±0.47×103; t=2.24, P=0.049 and t=4.22, P=0.002, respectively). At 4 and 24 weeks post-injection, the muscle mass and fiber cross-sectional area were similar across all three experimental groups. Immunohistochemistry showed that the MTM group had larger MyoG-positive fibers. The MTM group (3.18±1.13) also had higher expression of MyoG mRNA than other groups (1.41±0.65 and 1.03±0.19) at 2 weeks after injection (t=2.72, P=0.04). Transplanted MTMs delayed short-term atrophy of denervated muscles. This approach can be optimized as a novel stand-alone therapy or as a bridge to surgical re-innervation of damaged muscles.

Effects of electrical stimulation and stretching on the adaptation of denervated skeletal muscle: implications for physical therapy / Efeitos da eletroestimulação e do alongamento muscular sobre a adaptação do músculo desnervado: implicações para a fisioterapia

BACKGROUND: This review will describe the main cellular mechanisms involved in the reduction and increase of myoproteins synthesis commonly associated with muscle atrophy and hypertrophy, respectively. OBJECTIVE: We analyzed the effects of electrical stimulation (ES) and stretching exercise on the molecular pathways involved in muscle atrophy and hypertrophy. We also described the main effects and limits of these resources in the skeletal muscle, particularly on the denervated muscle. DISCUSSION: Recently, our studies showed that the ES applied in a similar manner as performed in clinical practice is able to attenuate the increase of genes expression involved in muscle atrophy. However, ES was not effective to prevent the loss of muscle mass caused by denervation. Regarding to stretching exercises, their mechanisms of action on the denervated muscle are not fully understood and studies on this area are scarce. Studies from our laboratory have found that stretching exercise increased the extracellular matrix remodeling and decreased genes expression related to atrophy in denervated muscle. Nevertheless, it was not enough to prevent muscle atrophy after denervation. CONCLUSIONS: In spite of the use of stretching exercise and ES in clinical practice in order to minimize the atrophy of denervated muscle, there is still lack of scientific evidence to justify the effectiveness of these resources to prevent muscle atrophy in denervated muscle.

CONTEXTUALIZAÇÃO: Esta revisão abordará os principais mecanismos celulares envolvidos na redução e aumento da síntese de mioproteínas comumente associadas às situações de atrofia e hipertrofia muscular, respectivamente. OBJETIVO: Analisaremos os efeitos da estimulação elétrica (EE) e do exercício de alongamento sobre as vias moleculares envolvidas na atrofia e hipertrofia muscular. Serão descritos os principais efeitos e os limites desses recursos no músculo esquelético, particularmente sobre o músculo desnervado. DISCUSSÃO: Recentemente, nossos estudos mostraram que a EE, aplicada de modo semelhante ao realizado na prática clínica, é capaz de amenizar o aumento da expressão de genes envolvidos na atrofia muscular. Entretanto, a EE não foi efetiva para deter a perda de massa muscular decorrente da desnervação. Em relação ao alongamento, seus mecanismos de ação sobre o músculo desnervado não são totalmente conhecidos, e os trabalhos nessa área são escassos. Estudos do nosso laboratório identificaram que o alongamento aumentou o remodelamento da matriz extracelular e diminuiu a expressão de genes relacionados à atrofia no músculo desnervado. Porém, também não foi suficiente para impedir a atrofia muscular após a desnervação. CONCLUSÕES: Apesar do uso da EE e do alongamento muscular na prática clínica, com objetivo de minimizar a atrofia do músculo desnervado, ainda há carência de informações científicas que justifiquem a eficácia desses recursos para prevenir a atrofia no músculo desnervado.