Single-fiber and whole muscle analyses of MHC isoform plasticity: interaction between T3 and unloading

V. J. Caiozzo, M. J. Baker, S. A. McCue and K. M. Baldwin Department of Physiology and Biophysics, College of Medicine, University of California, Irvine 92717, USA. Previous data suggest that separate interventions of hyperthyroidism (T3) and hindlimb suspension (HS) act on some but not all slow type I fibers in the soleus muscle. This may be due to the presence of "refractory" fibers that are unresponsive to either of these interventions. Alternatively, T3 and HS might act on different populations of slow type I fibers in the soleus muscle. Adult female Sprague-Dawley rats were assigned to 1) control, 2) T3, 3) HS, or 4) T3+HS. Nine animals were assigned to each group. Single-fiber electrophoretic analyses (n = 40 per muscle) of the soleus muscle demonstrated that the HS reduced the percentage of slow type I fibers from approximately 80% (control) to approximately 40% (HS) of the fiber population. Although hyperthyroidism affected a greater percentage of slow type I fibers than HS, a small population (approximately 10% of the slow type I fibers) were unaffected by T3. The combined intervention, in contrast, transformed all slow type I fibers into fibers expressing various combinations of fast myosin heavy chain (MHC) isoforms. These findings demonstrate that the soleus muscle does not contain so-called refractory fibers. They further suggest that the soleus muscle contains different populations of slow type I fibers that vary in their sensitivity to altered physiological conditions.