Changes of myosin and its ATPase in “neuronally” and “mechanically” contralateral muscles after cross-reinnervation in normal and capsaicin-treated rats

Abstract

The extensor digitorum longus (EDL) muscle was cross-reinnervated by the soleus (SOL) nerve in normal and neonatally capsaicin-treated rats. After 5 months the muscles were investigated for their myofibrillar ATPase reaction and their myosin light and heavy chain composition. Besides the well known transformation of the cross-reinnervated EDL toward a slow muscle, muscular changes were also found in the contralateral leg. Although these changes were hardly detectable in the EDL muscle, a remarkable (70 to 100%) reduction of the fast type IIA fiber population was found in the SOL. The decrease of the number of IIA fibers (compared with time-matched controls) was paralleled by corresponding changes in the myosin light and heavy chain patterns. After the cross-reinnervation of a muscle, two kinds of contralaterality must be distinguished. In the experiments reported the cross-reinnervated EDL muscle remains “mechanically” contralateral to the EDL muscle of the other leg, while it becomes “neuronally” contralateral to the SOL muscle. Our results are interpreted as a symmetric “slowing down” of these “neuronally” contralateral muscles. Neonatal capsaicin treatment that decreased considerably the number of unmyelinated group IV afferent fibers did not influence the outcome of these experiments.