A Prochlorperazine-Induced Decrease in Autonomous Muscle Activity during Hindlimb Unloading Is Accompanied by Preserved Slow Myosin mRNA Expression.
Kristina A SharloIrina D LvovaSergey A TyganovKsenia V SergeevaVitaly Y KalashnikovEkaterina P KalashnikovaTimur M MirzoevGrigoriy R KalamkarovTatiana F ShevchenkoBoris S ShenkmanPublished in: Current issues in molecular biology (2023)
Skeletal muscle disuse leads to pathological muscle activity as well as to slow-to-fast fiber-type transformation. Fast-type fibers are more fatigable than slow-type, so this transformation leads to a decline in muscle function. Prochlorperazine injections previously were shown to attenuate autonomous rat soleus muscle electrical activity under unloading conditions. In this study, we found that prochlorperazine blocks slow-to-fast fiber-type transformation in disused skeletal muscles of rats, possibly through affecting calcium and ROS-related signaling.