Effect of 17days of bed rest on peak isometric force and unloaded shortening velocity of human soleus fibers

The purpose of this study was to examine the effect of prolongedbed rest (BR) on the peak isometric force(P_o) and unloaded shorteningvelocity (V_o)of single Ca²⁺-activated musclefibers. Soleus muscle biopsies were obtained from eight adult malesbefore and after 17 days of 6° head-down BR. Chemicallypermeabilized single fiber segments were mounted between a forcetransducer and position motor, activated with saturating levels ofCa²⁺, and subjected to slacklength steps. V_owas determined by plotting the time for force redevelopment vs. theslack step distance. Gel electrophoresis revealed that 96% of the pre-and 87% of the post-BR fibers studied expressed only the slow type Imyosin heavy chain isoform. Fibers with diameter >100 µm made uponly 14% of this post-BR type I population compared with 33% of thepre-BR type I population. Consequently, the post-BR type I fibers(n = 147) were, on average, 5%smaller in diameter than the pre-BR type I fibers(n = 218) and produced 13% lessabsolute P_o. BR had no overalleffect on P_o per fibercross-sectional area(P_o/CSA), even though halfof the subjects displayed a decline of 9-12% inP_o/CSA after BR. Type Ifiber V_oincreased by an average of 34% with BR. Although the ratio of myosinlight chain 3 to myosin light chain 2 also rose with BR, there was nocorrelation between this ratio andV_o for either thepre- or post-BR fibers. In separate fibers obtained from the originalbiopsies, quantitative electron microscopy revealed a 20-24%decrease in thin filament density, with no change in thick filamentdensity. These results raise the possibility that alterations in thegeometric relationships between thin and thick filaments may be atleast partially responsible for the elevatedV_o of the post-BRtype I fibers.