Effects of lactic acid accumulation and ATP decrease on muscle tension and relaxation.

The present study was undertaken to evaluate the effect of lactic acid accumulation on peak tension and relaxation rate of the isometric twitch. Isolated extensor digitorum longus muscle from rat was stimulated electrically at a frequency of 2/s under anaerobic conditions. Comparison was made with muscles in which glycolysis was blocked with iodoacetic acid (IAA). Stimulation of unpoisoned muscles for 3 min decreased tension to 50% and increased relaxation time to 250% of the initial value. Lactate increased 15-fold, and muscle pH decreased from 7.10 to 6.76. Stimulation of IAA-poisoned muscles for 1 min decreased tension to 50% but did not increase the relaxation time. Stimulation of IAA-poisoned muscle resulted in a pronounced decrease (about 50%) of the ATP and total adenine nucleotide content in muscle, whereas only a small decrease (10-15%) occurred in unpoisoned muscle. The main findings in the present study were that tension decline in unpoisoned muscle is closely related to decrease in muscle pH and increase in ADP but not to ATP content per se and that slowing of relaxation rate is closely related to decrease in muscle pH but not to muscle content of ATP or creatine phosphate.

[1]  F. D. Carlson,et al.  The Creatine Phosphoryltransfer Reaction in Iodoacetate-Poisoned Muscle , 1959, The Journal of general physiology.

[2]  D. Wilkie,et al.  Muscular fatigue investigated by phosphorus nuclear magnetic resonance , 1978, Nature.

[3]  D. Jones,et al.  Metabolic changes associated with the slowing of relaxation in fatigued mouse muscle. , 1975, The Journal of physiology.

[4]  D. Wilkie,et al.  Mechanical relaxation rate and metabolism studied in fatiguing muscle by phosphorus nuclear magnetic resonance. , 1980, The Journal of physiology.

[5]  C. Ashley,et al.  Increase in free Ca2+ in muscle after exposure to CO2 , 1978, Nature.

[6]  K. Sahlin,et al.  Creatine kinase equilibrium and lactate content compared with muscle pH in tissue samples obtained after isometric exercise. , 1975, The Biochemical journal.

[7]  S. Rapoport,et al.  Metabolic correlates of fatigue and of recovery from fatigue in single frog muscle fibers , 1978, The Journal of general physiology.

[8]  R. Fitts,et al.  Lactate and contractile force in frog muscle during development of fatigue and recovery. , 1976, The American journal of physiology.

[9]  S. Ebashi,et al.  ADENOSINE TRIPHOSPHATE-LINKED CONCENTRATION OF CALCIUM IONS IN A PARTICULATE FRACTION OF RABBIT MUSCLE , 1962, The Journal of cell biology.

[10]  A. Fabiato,et al.  Effects of pH on the myofilaments and the sarcoplasmic reticulum of skinned cells from cardiace and skeletal muscles. , 1978, The Journal of physiology.

[11]  R. Solaro,et al.  Relative capabilities of sarcoplasmic reticulum in fast and slow mammalian skeletal muscles. , 1977, The Journal of physiology.

[12]  E. C. Bate-smith,et al.  CHANGES IN MUSCLE AFTER DEATH , 1956 .