Bed rest decreases mechanically induced myofiber wounding and consequent wound-mediated FGF release

Using a terrestrial model of spaceflight (i.e., bed rest), weinvestigated the amount of myofiber wounding and fibroblast growthfactor (FGF) release that occurs during unloading.Myofiber wounding was determined by serum levels of the creatine kinase MM (CKMM) isoform before and after bed rest. Serum levels of both acidic FGF (aFGF) and basic FGF were also determined. A second group ofsubjects was treated in an identical fashion except that they underwenta resistive exercise program during bed rest. Bed rest alone causedsignificant (P < 0.05;n = 7) reductions in post-bed-restserum levels of both CKMM and aFGF, which were paralleled by asignificant (P < 0.05;n = 7) decrease in myofiber size. Incontrast, bed rest plus resistive exercise resulted in significant (P < 0.05;n = 7) increases in post-bed-restserum levels of both CKMM and aFGF, which were paralleled by inhibitionof the atrophic response. These results suggest that mechanicallyinduced, myofiber wound-mediated FGF release may play an important rolein the etiology of unloading-induced skeletal muscle atrophy.