UMLS:C0015672 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

Query: UMLS:C0015672 (fatigue)
51,768 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Muscle biopsies taken from the musculus quadriceps femoris of man were analysed for pH, ATP, ADP, AMP, creatine phosphate, creatine, lactate and pyruvate. Biopsies were taken at rest, after circulatory occlusion and after isometric contraction. Muscle pH decreased from 7.09 at rest to 6.56 after isometric exercise to fatigue. Decrease in muscle pH was linearly related to accumulation of lactate plus pyruvate. An increase of 22mumol of lactate plus pyruvate per g of muscle resulted in a fall of 0.5pH unit. The apparent equilibrium constant of the creatine kinase reaction (apparent K(CK)) increased after isometric contraction and a linear relationship between log(apparent K(CK)) and muscle pH was obtained. The low content of creatine phosphate in muscle after contraction as analysed from needle-biopsy samples is believed to be a consequence of an altered equilibrium state of the creatine kinase reaction. This in turn is attributed mainly to a change in intracellular pH.
...
PMID:Creatine kinase equilibrium and lactate content compared with muscle pH in tissue samples obtained after isometric exercise. 0 60

Rabbits were immunized versus either an acetylcholinesterase- or a cholinergic receptor-rich fraction isolated from the electric organ of Torpedo marmorata. In both groups of animals we obtained a production of specific antibodies detected by immunodiffusion without cross reaction for the two antigens. Only rabbits immunized with the receptor-rich fraction developed a progressive flaccid paralysis, which affected first the leg muscles, progressively the neck muscles and eventually the respiratory muscles. The paralysis lasted in several animals up to 20 days. Eserine reversed the paralysis only in the first days but was ineffective in the "chronic" stage of the disease. In these animals high frequency stimulation of sciatic nerve induced a rapid failure of the responses of the anterior tibialis muscle while the muscle responded normally to a direct stimulation. A period of rest allowed a complete recovery of the muscle from fatigue. Tetani did not evoke the post-tetanic potentiation. Abnormalities, such as lymphocytic infiltration, fibers atrophy and necrosis, smearing and widening of Z line were sometimes present in muscles of Cho-R-immunized rabbits. In ACh-E immunized animals the neuromuscular transmission and the muscle morphology were similar to that of normal animals. Glycogen, ATP, cytochrome C oxidase, phosphorylases and acetylcholinesterase did not change significantly in the muscles of the immunized animals, while a large increase of cholineacetyltransferase activity was present. Red blood cell acetylcholinesterase showed a particularly high activity in ACh-E-immunized animals. The autoimmune paralysis induced in Cho-R-immunized rabbits may be a useful experimental model for further studies on human myasthenia gravis.
...
PMID:Immunization of rabbits with secific components of postsynaptic membrane. Acetylcholinesterase and cholinergic receptor. 18 67

Three fractions of rat adenosine-3',5'-monophosphate-dependent protein kinase were isolated, partially purified in buffer concentration gradient at normal state and after long-term physical loading and studied. It is found that first two fractions of protein kinases at normal state and after intensive muscular work have similar activities with and without cAMP, apparent Km values for ATP and total histone and half-maximal stimulation by cyclic AMP, but they differed from the third fraction. There are differences in some kinetic parameters and in the cyclic AMP stimulated activities between protein kinases after physical loading. The data obtained suggest the existence of at least two kinases in rat skeletal muscle. The isoenzymes differ in their activities during fatigue.
...
PMID:[Several properties of 3':5'-AMP-dependent skeletal muscle protein kinases in normal rats and following physical exertion to fatigue]. 21 65

Three subjects performed five successive isometric contractions to fatigue; the tension in any one experiment was constant at tensions varying from 20 to 80% of the maximal voluntary contraction (MVC). The interval between contractions was held constant at 11 min. Muscle biopsy specimens were obtained at the start of the experiment, after the first, fourth, and fifth, and before the second and fifth of the successive contractions. The concentrations of ATP, CP, glycogen, and lactate were measured in each sample of muscle. Changes in ATP and glycogen were insufficient to be held accountable for the development of isometric fatigue. Changes in CP and lactate were large after fatigue at intermediate tensions, but those of CP were considered unlikely to be responsible for the fatigue. At tensions of 30-50% MVC the increase in lactate could be responsible for fatigue either directly or by indirect changes in pH; at higher and lower tensions the possibility that lactate is directly implicated in the development of fatigue seems remote.
...
PMID:Constituents of human muscle in isometric fatigue. 23 4

Muscular fatigue has been studied using 31PNMR to measure the levels and rates of utilisation of several key metabolites and the free-energy change for ATP hydrolysis. Force development is closely correlated with metabolite levels and is proportional to the rate at which ATP is hydrolysed.
...
PMID:Muscular fatigue investigated by phosphorus nuclear magnetic resonance. 30 89

Fatigue and recovery from fatigue were related to metabolism in single fibers of the frog semitendinosus muscle. The fibers were held at a sarcomere length of 2.3 microm in oxygenated Ringer solution at 15 degrees C and were stimulated for up to 150 s by a schedule of 10-s, 20-Hz tetanic trains that were interrupted by 1-s rest periods, after which they were rapidly frozen for biochemical analysis. Two kinds of fatigue were produced in relation to stimulus duration. A rapidly reversed fatigue occurred with stimulation for under 40 s and was evidenced by a decline in tetanic tension that could be overcome by 1 s of rest. A prolonged fatigue was caused by stimulation for 100-150 s. It was evidenced during stimulation by a fall in tetanic tension that could not be overcome by 1 s of rest, and after stimulation by a reduction, lasting for up to 82 min, in the peak tension of a 200-ms test tetanus. Fiber phosphocreatine (PCr) fell logarithmically in relation to stimulus duration, from a mean of 121 +/- 8 nmol/mg protein (SEM, n = 12) to 10% of this value after 150 s of stimulation. PCr returned to normal levels after 90-120 min of rest. Stimulation for 150 s did not significantly affect fiber glycogen and reduced fiber ATP by at most 15%. It is suggested that the prolonged fatigue caused by 100-150 s of tetanic stimulation was caused by long-lasting failure of excitation-contraction coupling, as it was not accompanied by depletion of energy stores in the form of ATP. One possibility is that H+ accumulated in fatigued fibers so as to interfere with the action of Ca2+ in the coupling process.
...
PMID:Metabolic correlates of fatigue and of recovery from fatigue in single frog muscle fibers. 31 Aug 67

Experiments were performed to determine how glycerol affects macromolecular syntheses and nucleoside triphosphate levels in a strain of Escherichia coli that lacks a functional sn-glycerol-3-phosphate dehydrogenase. The addition of glycerol to cultures of this strain, Lin 8, growing on a gluconeogenic carbon source causes immediate growth stasis (N. R. Cozzarelli, J. P. Koch, S. Hayashi, and E. C. C. Lin, J. Bacteriol. 90:1325-1329, 1965). Immediately after the addition of glycerol to cultures of Lin 8, the syntheses of DNA, RNA, and protein are completely inhibited. Phospholipid synthesis is not inhibited as severely by glycerol. The addition of glycerol to strain Lin 8 also results in a rapid decrease in its nucleoside triphosphate levels. The total intracellular concentration of ATP in strain Lin 8 was reduced by 85% within 30 s after the addition of glycerol. These results suggest that the glycerol-induced inhibition of growth and macromolecular syntheses may be a secondary consequence of the decreased energy supply in this strain. In addition, studies also suggest that phospholipid synthesis can continue (albeit at a reduced rate) under conditions of severe energy limitation.
...
PMID:Changes in macromolecular synthesis and nucleoside triphosphate levels during glycerol-induced growth stasis of Escherichia coli. 36 98

1 The accumulation of glucose in the brain produced by the administration of phosphatidylserine liposomes into mice has been studied by measurement of the cerebral contents of glycolytic intermediates and high-energy compounds. 2 With a normal supply of oxygen to the brain, inhibition of glycolysis is indicated mainly at the phosphofructokinase step. The ratio of glucose-6-phosphate to fructose-1,6-diphosphate increased, whereas the levels of pyruvate and especially lactate decreased. 3 Under conditions of cerebral ischaemia, the administration of phosphatidylserine delays glycogen mobilization and ATP use. As a consequence of decreased energy utilization, the brain adenylate energy charge remains at a high level. 4 It is concluded that the phosphatidylserine-induced glucose accumulation in the brain is due to reduced energy expenditure and therefore to a decrease in carbohydrate consumption. The inhibition of glycolysis by the high level of adenylate energy charge is probably the control mechanism explaining the decreased carbohydrate utilization.
...
PMID:Pharmacological effects of phosphatidylserine liposomes: regulation of gylcolysis and energy level in brain. 46 67

Direct stimulation of single muscle fibers from Xenopus laevis at a frequency of 1 Hz results in a decline of the peak isometric twitch tension after about 200 twitches. Fibers were chemically fixed in glutaraldehyde after a varying number of twitches and at several fatigue levels, and the ultrastructural appearance was compared with that of resting fibers treated by identical fixation methods. No gross structural abnormalities were observed but subtle changes occurred. The mitochondria of stimulated fibers contain granules of normal size and number. The inner crista width is constant but the matrix width is increased on stimulation. These changes would not compromise ATP production. The myofibrils are normal except for a slight swelling in the myosin lattice. The transverse system (T system) and sarcoplasmic reticulum are intact. The minor diameter of the transverse tubule (T tubule) is increased slightly in stimulated fibers. The gap between the T-TC membranes stays constant at about 110 A, but tiny connecting pillars are seen to cross this gap more frequently in stimulated fibers (21 +/- 5% triads) than in resting fibers (8 +/- 6%). In stimulated fibers there is a marked increase in the electron dense content of the terminal cisternae (TC). Inasmuch as the observed structural changes correlate with the number of twitches but not with the fatigue level, it is concluded that TC density and T-TC pillar formation are related to the normal mechanisms of excitation-contraction coupling.
...
PMID:Structural changes in single muscle fibers after stimulation at a low frequency. 47 18

During studies of the regulation of phosphorylase activity and glycogenolysis in contracting muscle, it was found that conversion of phosphorlyase beta to alpha is transient. Reversal of phosphorylase activation during both continuous and intermittent stimulation in the plantaris might, in part, have been due to development of fatigue. However, a complete reversal of phosphorylase activation was also evident within 5 min in the absence of fatigue in soleus muscles stimulated tetanically with 100-ms-long trains at a rate of 60/min. These muscles showed no significant decline in contractile force. Glycogen breakdown stopped in the soleus when phosphorylase reverted to the beta form, providing evidence that phosphorylase beta was not active. This lack of activity is probably explained by the finding that ATP and AMP concentrations changed little, while glucose 6-phosphate increased. Reversal of phosphorlyase activation soon after the onset of steady-state work may be a mechanism for conserving glycogen when the supply of other substrates is adequate to meet the muscles' energy needs.
...
PMID:Reversal of phosphorylase activation in muscle despite continued contractile activity. 49 77

1 2 3 4 5 6 7 8 9 10 Next >>