AIM: The aim of this report is to show that eccentric exercise under well-controlled conditions is an alternative model, to chemical and mechanical analyses, and analyse the process of degeneration/regeneration in mouse soleus. METHODS: For this, mice were submitted to a single bout of eccentric exercise on a treadmill down a 14 degrees decline for 150 min and the soleus muscle was analysed at different times following exercise by histology and in situ hybridization in comparison with cardiotoxin-injured muscles. RESULTS: We analyse the regenerative process by detection of the accumulation of transcripts coding for the two myogenic regulatory factors, Myf-5 and MyoD, which are good markers of the activated satellite cells. From 24 h post-exercise (P-E), clusters of mononucleated Myf-5/MyoD-positive cells were detected. Their number increased up to 96 h P-E when young MyoD-positive myotubes with central nuclei began to appear. From 96 to 168 h P-E the number of myotubes increased, about 10-fold, the new myotubes representing 58% of the muscle cells (168 h P-E). CONCLUSION: These results show that this protocol of eccentric exercise is able to induce a drastic degeneration/regeneration process in the soleus muscle. This offers the opportunity to perform biochemical and molecular analyses of a process of regeneration without muscle environment defects. The advantages of this model are discussed in the context of fundamental and therapeutical perspectives.
AIM: The aim of this report is to show that eccentric exercise under well-controlled conditions is an alternative model, to chemical and mechanical analyses, and analyse the process of degeneration/regeneration in mouse soleus. METHODS: For this, mice were submitted to a single bout of eccentric exercise on a treadmill down a 14 degrees decline for 150 min and the soleus muscle was analysed at different times following exercise by histology and in situ hybridization in comparison with cardiotoxin-injured muscles. RESULTS: We analyse the regenerative process by detection of the accumulation of transcripts coding for the two myogenic regulatory factors, Myf-5 and MyoD, which are good markers of the activated satellite cells. From 24 h post-exercise (P-E), clusters of mononucleated Myf-5/MyoD-positive cells were detected. Their number increased up to 96 h P-E when young MyoD-positive myotubes with central nuclei began to appear. From 96 to 168 h P-E the number of myotubes increased, about 10-fold, the new myotubes representing 58% of the muscle cells (168 h P-E). CONCLUSION: These results show that this protocol of eccentric exercise is able to induce a drastic degeneration/regeneration process in the soleus muscle. This offers the opportunity to perform biochemical and molecular analyses of a process of regeneration without muscle environment defects. The advantages of this model are discussed in the context of fundamental and therapeutical perspectives.
Authors: Iman Laziz; Arnaud Ferry; Anne-Sophie Armand; Claude Louis Gallien; Bruno Della Gaspera; F Charbonnier; C Chanoine Journal: Eur J Appl Physiol Date: 2010-12-25 Impact factor: 3.078
Authors: Chad D Touchberry; Anisha A Gupte; Gregory L Bomhoff; Zachary A Graham; Paige C Geiger; Philip M Gallagher Journal: Cell Stress Chaperones Date: 2012-05-17 Impact factor: 3.667
Authors: Susan K Tsivitse; Michael G Peters; Angel L Stoy; Jeffrey A Mundy; Robert S Bowen Journal: Eur J Appl Physiol Date: 2009-05-21 Impact factor: 3.078
Authors: M Monda; C Vicidomini; An Viggiano; S Sampaolo; G Di Iorio; Al Viggiano; E Viggiano; B De Luca Journal: J Muscle Res Cell Motil Date: 2009-06-13 Impact factor: 2.698
Authors: Karl J A McCullagh; Ben Edwards; Matthew W Kemp; Laura C Giles; Matthew Burgess; Kay E Davies Journal: Mamm Genome Date: 2008-07-02 Impact factor: 2.957