NeuroHeal Improves Muscle Regeneration after Injury
Musculoskeletal injuries represent a challenging medical problem. Although the skeletal muscle is able to regenerate and recover after injury, the process engaged with conservative therapy can be inefficient, leading to a high re-injury rate. In addition, the formation of scar tissue implies an alte...
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doaj-c32e0ba4ed6d46e994962eb571b42a422020-12-25T00:04:40ZengMDPI AGCells2073-44092021-12-0110222210.3390/cells10010022NeuroHeal Improves Muscle Regeneration after InjurySara Marmolejo-Martínez-Artesero0David Romeo-Guitart1Vanesa Venegas2Mario Marotta3Caty Casas4Institut de Neurociències (INc) and Department of Cell Biology, Physiology and Immunology, Universitat Autònoma de Barcelona (UAB), Bellaterra, 08193 Barcelona, SpainInstitut de Neurociències (INc) and Department of Cell Biology, Physiology and Immunology, Universitat Autònoma de Barcelona (UAB), Bellaterra, 08193 Barcelona, SpainLeitat Technological Center, Carrer de la Innovació 2, Terrassa, 08225 Barcelona, SpainLeitat Technological Center, Carrer de la Innovació 2, Terrassa, 08225 Barcelona, SpainInstitut de Neurociències (INc) and Department of Cell Biology, Physiology and Immunology, Universitat Autònoma de Barcelona (UAB), Bellaterra, 08193 Barcelona, SpainMusculoskeletal injuries represent a challenging medical problem. Although the skeletal muscle is able to regenerate and recover after injury, the process engaged with conservative therapy can be inefficient, leading to a high re-injury rate. In addition, the formation of scar tissue implies an alteration of mechanical properties in muscle. There is still a need for new treatments of the injured muscle. NeuroHeal may be one option. Published studies demonstrated that it reduces muscle atrophy due to denervation and disuse. The main objective of the present work was to assess the potential of NeuroHeal to improve muscle regeneration after traumatic injury. Secondary objectives included characterizing the effect of NeuroHeal treatment on satellite cell biology. We used a rat model of sport-induced injury in the gastrocnemius and analyzed the effects of NeuroHeal on functional recovery by means of electrophysiology and tetanic force analysis. These studies were accompanied by immunohistochemistry of the injured muscle to analyze fibrosis, satellite cell state, and fiber type. In addition, we used an in vitro model to determine the effect of NeuroHeal on myoblast biology and partially decipher its mechanism of action. The results showed that NeuroHeal treatment advanced muscle fiber recovery after injury in a preclinical model of muscle injury, and significantly reduced the formation of scar tissue. In vitro, we observed that NeuroHeal accelerated the formation of myotubes. The results pave the way for novel therapeutic avenues for muscle/tendinous disorders.https://www.mdpi.com/2073-4409/10/1/22muscle regenerationNeuroHealsatellite cellsSirtuin 1sport injury |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Sara Marmolejo-Martínez-Artesero David Romeo-Guitart Vanesa Venegas Mario Marotta Caty Casas |
spellingShingle |
Sara Marmolejo-Martínez-Artesero David Romeo-Guitart Vanesa Venegas Mario Marotta Caty Casas NeuroHeal Improves Muscle Regeneration after Injury Cells muscle regeneration NeuroHeal satellite cells Sirtuin 1 sport injury |
author_facet |
Sara Marmolejo-Martínez-Artesero David Romeo-Guitart Vanesa Venegas Mario Marotta Caty Casas |
author_sort |
Sara Marmolejo-Martínez-Artesero |
title |
NeuroHeal Improves Muscle Regeneration after Injury |
title_short |
NeuroHeal Improves Muscle Regeneration after Injury |
title_full |
NeuroHeal Improves Muscle Regeneration after Injury |
title_fullStr |
NeuroHeal Improves Muscle Regeneration after Injury |
title_full_unstemmed |
NeuroHeal Improves Muscle Regeneration after Injury |
title_sort |
neuroheal improves muscle regeneration after injury |
publisher |
MDPI AG |
series |
Cells |
issn |
2073-4409 |
publishDate |
2021-12-01 |
description |
Musculoskeletal injuries represent a challenging medical problem. Although the skeletal muscle is able to regenerate and recover after injury, the process engaged with conservative therapy can be inefficient, leading to a high re-injury rate. In addition, the formation of scar tissue implies an alteration of mechanical properties in muscle. There is still a need for new treatments of the injured muscle. NeuroHeal may be one option. Published studies demonstrated that it reduces muscle atrophy due to denervation and disuse. The main objective of the present work was to assess the potential of NeuroHeal to improve muscle regeneration after traumatic injury. Secondary objectives included characterizing the effect of NeuroHeal treatment on satellite cell biology. We used a rat model of sport-induced injury in the gastrocnemius and analyzed the effects of NeuroHeal on functional recovery by means of electrophysiology and tetanic force analysis. These studies were accompanied by immunohistochemistry of the injured muscle to analyze fibrosis, satellite cell state, and fiber type. In addition, we used an in vitro model to determine the effect of NeuroHeal on myoblast biology and partially decipher its mechanism of action. The results showed that NeuroHeal treatment advanced muscle fiber recovery after injury in a preclinical model of muscle injury, and significantly reduced the formation of scar tissue. In vitro, we observed that NeuroHeal accelerated the formation of myotubes. The results pave the way for novel therapeutic avenues for muscle/tendinous disorders. |
topic |
muscle regeneration NeuroHeal satellite cells Sirtuin 1 sport injury |
url |
https://www.mdpi.com/2073-4409/10/1/22 |
work_keys_str_mv |
AT saramarmolejomartinezartesero neurohealimprovesmuscleregenerationafterinjury AT davidromeoguitart neurohealimprovesmuscleregenerationafterinjury AT vanesavenegas neurohealimprovesmuscleregenerationafterinjury AT mariomarotta neurohealimprovesmuscleregenerationafterinjury AT catycasas neurohealimprovesmuscleregenerationafterinjury |
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