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Takekura Takekura, Shuman Shuman, Franzini‐Armstrong Franzini‐Armstrong (1994)
Differentiation of membrane systems during development of slow and fast skeletal muscle fibres in chickenJournal of Muscle Research and Cell Motility, 14
R. Palmer, P. Reeds, T. Atkinson, R. Smith (1983)
The influence of changes in tension on protein synthesis and prostaglandin release in isolated rabbit muscles.The Biochemical journal, 214 3
J. Fridén, R. Lieber (1996)
Ultrastructural evidence for loss of calcium homeostasis in exercised skeletal muscle.Acta physiologica Scandinavica, 158 4
R. Lieber, T. Woodburn, J. Fridén (1991)
Muscle damage induced by eccentric contractions of 25% strain.Journal of applied physiology, 70 6
P. Macpherson, M. Schork, J. Faulkner (1996)
Contraction-induced injury to single fiber segments from fast and slow muscles of rats by single stretches.The American journal of physiology, 271 5 Pt 1
D. Morgan, D. Allen (1999)
Early events in stretch-induced muscle damage.Journal of applied physiology, 87 6
Takekura Takekura, Kitada Kitada, Kasuga Kasuga, Yoshioka Yoshioka (1996b)
Morphological changes in the triads and sarcoplasmic reticulum of rat slow and fast muscle fibres following denervation and immobilizationJournal of Muscle Research and Cell Motility, 17
L. Guth, F. Samaha (1970)
Procedure for the histochemical demonstration of actomyosin ATPase.Experimental neurology, 28 2
S. Walker, G. Schrodt, M. Bingham (1969)
Evidence for connections of the sarcoplasmic reticulum with the sarcolemma and with the Z line in skeletal muscle fibers of fetal and newborn rats.American journal of physical medicine, 48 2
D. Appelt, B. Buenviaje, C. Champ, C. Franzini-armstrong (1989)
Quantitation of 'junctional feet' content in two types of muscle fiber from hind limb muscles of the rat.Tissue & cell, 21 5
(1994)
The sarcoplasmic reticulum and the transverse tubules
A. Nardone, Claudio Romano, M. Schieppati (1989)
Selective recruitment of high‐threshold human motor units during voluntary isotonic lengthening of active muscles.The Journal of Physiology, 409
R. Armstrong, R. Ogilvie, J. Schwane (1983)
Eccentric exercise-induced injury to rat skeletal muscle.Journal of applied physiology: respiratory, environmental and exercise physiology, 54 1
B. Katz (1939)
The relation between force and speed in muscular contractionThe Journal of Physiology, 96
C. Ingalls, Gordon Warren, J. Williams, C. Ward, R. Armstrong (1998)
E-C coupling failure in mouse EDL muscle after in vivo eccentric contractions.Journal of applied physiology, 85 1
I. Fuentes, Á. Cobos, L. Segade (1998)
Muscle fibre types and their distribution in the biceps and triceps brachii of the rat and rabbitJournal of Anatomy, 192
A. Forrester (1979)
Free radical chemistryNature, 281
E. Nadel, U. Bergh, B. Saltin (1972)
Body temperatures during negative work exercise.Journal of applied physiology, 33 5
J. Komulainen, J. Kytola, V. Vihko (1994)
Running-induced muscle injury and myocellular enzyme release in rats.Journal of applied physiology, 77 5
M. Nunzi, Clara Franzini-Armstrong (1980)
Trabecular network in adult skeletal muscle.Journal of ultrastructure research, 73 1
H. Ishikawa (1968)
FORMATION OF ELABORATE NETWORKS OF T-SYSTEM TUBULES IN CULTURED SKELETAL MUSCLE WITH SPECIAL REFERENCE TO THE T-SYSTEM FORMATIONThe Journal of Cell Biology, 38
D. Newham, G. Mcphail, K. Mills, R. Edwards (1983)
Ultrastructural changes after concentric and eccentric contractions of human muscleJournal of the Neurological Sciences, 61
Sommer Sommer, Wauch Wauch (1976)
The ultrastructure of the mammalian cardiac muscle cell with special emphasis on tubular membrane systemAmerican Journal of Pathology, 82
Takekura Takekura, Kasuga Kasuga (1999)
Differential response of the membrane systems involved in excitation‐contraction coupling to early and later postnatal denervation in rat skeletal muscleJournal of Muscle Research and Cell Motility, 20
J. Fridén, M. Sjöström, B. Ekblom (1983)
Myofibrillar Damage Following Intense Eccentric Exercise in ManInternational Journal of Sports Medicine, 04
Gordon Warren, D. Lowe, D. Hayes, C. Karwoski, B. Prior, R. Armstrong (1993)
Excitation failure in eccentric contraction‐induced injury of mouse soleus muscle.The Journal of Physiology, 468
H. Westerblad, S. Duty, D. Allen (1993)
Intracellular calcium concentration during low-frequency fatigue in isolated single fibers of mouse skeletal muscle.Journal of applied physiology, 75 1
(1994)
Quantitative morphological studies of muscle
C. Franzini-armstrong, F. Protasi (1997)
Ryanodine receptors of striated muscles: a complex channel capable of multiple interactions.Physiological reviews, 77 3
Sherell Byrd (1992)
Alterations in the sarcoplasmic reticulum: a possible link to exercise-induced muscle damage.Medicine and science in sports and exercise, 24 5
R. Jenkins (1988)
Free Radical ChemistrySports Medicine, 5
G. Lamb, P. Junankar, D. Stephenson (1995)
Raised intracellular [Ca2+] abolishes excitation‐contraction coupling in skeletal muscle fibres of rat and toad.The Journal of Physiology, 489
Michael Forbes, Michael Forbes, B. Plantholt, B. Plantholt, Nick Sperelakis, Nick Sperelakis (1977)
Cytochemical staining procedures selective for sarcotubular systems of muscle: modifications and applications.Journal of ultrastructure research, 60 3
Sommer, Robert Waugh (1976)
The ultrastructure of the mammalian cardiac muscle cell--with special emphasis on the tubular membrane systems. A review.The American journal of pathology, 82 1
JOHN Lawler, Scott Powers, J. Hammeren, A. Martin (1993)
Oxygen cost of treadmill running in 24-month-old Fischer-344 rats.Medicine and science in sports and exercise, 25 11
M. Delp, C. Duan (1996)
Composition and size of type I, IIA, IID/X, and IIB fibers and citrate synthase activity of rat muscle.Journal of applied physiology, 80 1
W. Stauber (1989)
Eccentric action of muscles: physiology, injury, and adaptation.Exercise and sport sciences reviews, 17
C. Balnave, D. Allen (1995)
Intracellular calcium and force in single mouse muscle fibres following repeated contractions with stretch.The Journal of Physiology, 488
M. Reddy, J. Etlinger, M. Rabinowitz, D. Fischman, R. Zak (1975)
Removal of Z-lines and alpha-actinin from isolated myofibrils by a calcium-activated neutral protease.The Journal of biological chemistry, 250 11
C. Franzini-armstrong (1991)
Simultaneous maturation of transverse tubules and sarcoplasmic reticulum during muscle differentiation in the mouse.Developmental biology, 146 2
J. Fridén, J. Fridén, R. Lieber, R. Lieber (1992)
Structural and mechanical basis of exercise-induced muscle injury.Medicine and science in sports and exercise, 24 5
Takekura Takekura, Kasuga Kasuga, Yoshioka Yoshioka (1996a)
Influences of sarcomere length and selective elimination of myosin filaments on the localization and orientation of triads in rat skeletal muscle fibresJournal of Muscle Research and Cell Motility, 17
C. Franzini-armstrong, A. Jorgensen (1994)
Structure and development of E-C coupling units in skeletal muscle.Annual review of physiology, 56
Paul McNeil, R. Khakee (1992)
Disruptions of muscle fiber plasma membranes. Role in exercise-induced damage.The American journal of pathology, 140 5
R. Mellgren (1987)
Calcium‐dependent proteases: an enzyme system active at cellular membranes?The FASEB Journal, 1
Physiological evidence suggests that excitation‐contraction (E—C) coupling failure results from eccentric contraction‐induced muscle injury because of structural and morphological damage to membrane systems directly associated with the E—C 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 E—C 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 E—C 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−1, 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 Ca2+–K3Fe(CN)6–OsO4 techniques, and observed by high voltage electron microscopy (120–200 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 2–3 days after the downhill running exercise. The eccentric exercise led to the formation of abnormal membrane systems involved in E–C 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 E–C coupling failure is due to physical and chemical disruption of the membrane systems involved in the E–C coupling process in skeletal muscle.
The Journal of Physiology – Wiley
Published: Jun 1, 2001
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