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Eccentric exercise-induced morphological changes in the membrane systems involved in excitationâcontraction coupling in rat skeletal muscle
Physiological evidence suggests that excitation-contraction (EâC) coupling failure results from eccentric contraction-induced muscle injury because of structural and morphological damage to membrane systems directly associated with the EâC coupling processes within skeletal muscle fibres. In thi...
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Published in: | The Journal of physiology 2001-06, Vol.533 (2), p.571 |
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Main Authors: | , , , , |
Format: | Article |
Language: | English |
Online Access: | Get full text |
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Summary: | Physiological evidence suggests that excitation-contraction (EâC) coupling failure results from eccentric contraction-induced
muscle injury because of structural and morphological damage to membrane systems directly associated with the EâC coupling
processes within skeletal muscle fibres. In this study using rats, we observed the ultrastructural features of the membrane
systems of fast-twitch (FT) and slow-twitch (ST) muscle fibres involved in EâC coupling following level and downhill running
exercise. Our aim was to find out whether mechanically mediated events following eccentric exercise caused disorder in the
membrane systems involved in EâC coupling, and how soon after exercise such disorder occurred. We also compared the morphological
changes of the membrane systems between ST and FT muscle fibres within the same muscles.
Single muscle fibres were dissected from triceps brachii muscles of male Fischer 344 rats after level or downhill (16 deg
decline) motor-driven treadmill running (18 m min â1 , 5 min running with 2 min rest interval, 18 bouts). All single muscle fibres were histochemically classified into ST or FT
fibres. The membrane systems were visualized using Ca 2+ âK 3 Fe(CN) 6 âOsO 4 techniques, and observed by high voltage electron microscopy (120â200 kV).
There were four obvious ultrastructural changes in the arrangement of the transverse (t)-tubules and the disposition of triads
after the downhill running exercise: (1) an increase in the number of longitudinal segments of the t-tubule network, (2) changes
in the direction and disposition of triads, (3) the appearance of caveolar clusters, and (4) the appearance of pentads and
heptads (close apposition of two or three t-tubule elements with three or four elements of terminal cisternae of the sarcoplasmic
reticulum). The caveolar clusters appeared almost exclusively in the ST fibres immediately after downhill running exercise
and again 16 h later. The pentads and heptads appeared almost exclusively in the FT fibres, and their numbers increased dramatically
2â3 days after the downhill running exercise.
The eccentric exercise led to the formation of abnormal membrane systems involved in EâC coupling processes. These systems
have unique morphological features, which differ between ST and FT fibres, even within the same skeletal muscle, and the damage
appears to be concentrated in the FT fibres. These observations also support the idea that eccentric exercise- induced EâC
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ISSN: | 0022-3751 1469-7793 |
DOI: | 10.1111/j.1469-7793.2001.0571a.x |