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Force-velocity-power and force-pCa relationships of human soleus fibers after 17 days of bed rest

J Appl Physiol (1985). 1998 Nov;85(5):1949-56. doi: 10.1152/jappl.1998.85.5.1949.

Abstract

Soleus muscle fibers from the rat display a reduction in peak power and Ca2+ sensitivity after hindlimb suspension. To examine human responses to non-weight bearing, we obtained soleus biopsies from eight adult men before and immediately after 17 days of bed rest (BR). Single chemically skinned fibers were mounted between a force transducer and a servo-controlled position motor and activated with maximal (isotonic properties) and/or submaximal (Ca2+ sensitivity) levels of free Ca2+. Gel electrophoresis indicated that all pre- and post-BR fibers expressed type I myosin heavy chain. Post-BR fibers obtained from one subject displayed increases in peak power and Ca2+ sensitivity. In contrast, post-BR fibers obtained from the seven remaining subjects showed an average 11% reduction in peak power (P < 0.05), with each individual displaying a 7-27% reduction in this variable. Post-BR fibers from these subjects were smaller in diameter and produced 21% less force at the shortening velocity associated with peak power. However, the shortening velocity at peak power output was elevated 13% in the post-BR fibers, which partially compensated for their lower force. Post-BR fibers from these same seven subjects also displayed a reduced sensitivity to free Ca2+ (P < 0.05). These results indicate that the reduced functional capacity of human lower limb extensor muscles after BR may be in part caused by alterations in the cross-bridge mechanisms of contraction.

Publication types

  • Clinical Trial
  • Research Support, U.S. Gov't, Non-P.H.S.

MeSH terms

  • Adult
  • Calcium / metabolism
  • Humans
  • Isotonic Contraction / physiology
  • Male
  • Muscle Contraction / physiology
  • Muscle Fibers, Skeletal / metabolism*
  • Muscle, Skeletal / cytology
  • Muscle, Skeletal / metabolism*
  • Myosin Heavy Chains / metabolism
  • Rest / physiology*

Substances

  • Myosin Heavy Chains
  • Calcium