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

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

The concentrations of intermediate and end products of anaerobic energy metabolism and of free amino acids were determined in mantle musculature and blood sampled from cannulated, unrestrained squid (Loligo pealei, Illex illecebrosus) under control conditions, after fatigue from increasing levels of exercise, and during postexercise recovery. Phosphagen depletion, accumulation of octopine (more so in Illex than in Loligo), and accumulation of succinate indicate that anaerobic metabolism contributes to energy production before fatigue. Proline was a substrate of metabolism in Loligo, as indicated by its depletion in the mantle. In both species, there was no evidence of catabolism of ATP beyond AMP. A comparison of the changes in the free and total levels of adenylates and the phosphagen indicates an earlier detrimental effect of fatigue on the energy status in Loligo. The acidosis provoked by octopine formation in Illex was demonstrated to promote the use of the phosphagen and to protect the free energy change of ATP such that the anaerobic scope of metabolism during swimming is extended and expressed more in Illex than in Loligo. In both species, there was no decrease in the sum of phospho-L-arginine, octopine, and L-arginine, and thus no release of octopine from the mantle, thereby supporting our earlier claim that octopine and associated protons are recycled in the mantle tissue. Overall, the metabolic strategy of Loligo is much less disturbing for the acid-base status. This strategy and the alternative strategy of Illex to keep acidifying protons in the tissue may be important for the protection of hemocyanin function in the two species.
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PMID:Metabolism and energetics in squid (Illex illecebrosus, Loligo pealei) during muscular fatigue and recovery. 834 82

Squid (Lolliguncula brevis) were exercised at increasing swimming speeds to allow us to analyze the correlated changes in intracellular metabolic, acid-base, and energy status of the mantle musculature. Beyond a critical swimming velocity of 1.5 mantle lengths/s, an intracellular acidosis developed that was caused by an initial base loss from the cells, the onset of respiratory acidification, and, predominantly, octopine formation. The acidosis was correlated with decreasing levels of phospho-L-arginine and, thus, supported ATP buffering at the expense of the phosphagen. Monohydrogenphosphate, the actual substrate of glycogen phosphorylase accumulated, enabling glycogen degradation, despite progressive acidosis. In addition to octopine, succinate, and glycerophosphate accumulation, the onset of acidosis characterizes the critical velocity and indicates the transition to a non-steady-state time-limited situation. Accordingly, swimming above the critical velocity caused cellular energy levels (in vivo Gibbs free energy change of ATP hydrolysis) to fall. A minimal value was reached at about -45 kJ/mol. Model calculations demonstrate that changes in free Mg2+ levels only minimally affect ATP free energy, but minimum levels are relevant in maintaining functional concentrations of Mg(2+)-complexed adenylates. Model calculations also reveal that phosphagen breakdown enabled L. brevis to reach swimming speeds about three times higher than the critical velocity. Comparison of two offshore squid species (Loligo pealei and Illex illecebrosus) with the estuarine squid L.brevis indicates that the latter uses a strategy to delay the exploitation of high-energy phosphates and protect energy levels at higher than the minimum levels (-42 kJ/mol) characterizing fatigue in the other species. A more economical use of anaerobic resources and an early reduction in performance may enable L. brevis to tolerate more extreme environmental conditions in shallow estuarine waters and even hypoxic environments and to prevent a fatal depletion of energy stores.
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PMID:Metabolic and energy correlates of intracellular pH in progressive fatigue of squid (L. brevis) mantle muscle. 894 80

The aim of the study was to evaluate the effects of nitric oxide (NO) on diaphragmatic fatigue in fifteen anaesthetized, mechanically ventilated pigs, divided into three groups. The animals were pre-treated with indomethacin (3 mg kg-1, i.v.) to block the cyclo-oxygenase pathway. To group 1 pigs (n = 6) NG-nitro-L-arginine methyl ester (L-NAME, 5 mg kg-1 i.v.) was administered as a bolus to block endogenous NO production, while group 2 pigs (n = 6) were infused with sodium nitroprusside (SNP, 0.023 mg kg-1, i.v.), a donor of NO. Group 3 pigs (n = 3) were used as the controls. We evaluated diaphragmatic strength by measuring the transdiaphragmatic pressure (P di) generated during bilateral phrenic nerve stimulation at 10, 20, 30 and 50 Hz, 15 V, while the diaphragmatic endurance was assessed by a 30s stimulation at 10 Hz, 15 V. Diaphragmatic index was assessed as the ratio of peak force between single twitches performed before and after the 30 s stimulation west. We also evaluated mean systemic (MAP) and pulmonary (MPAP) arterial pressures, pulmonary wedge pressure (PW), systemic (SVR) and pulmonary vascular resistance (PVR) and cardiac output (CO). L-NAME increased MAP, MPAP, PW, SVR and PVR, but decreased CO. SNP caused a decrease in MAP, MPAP, PW and SVR, while PVR and CO did not change. The main finding of this study was that diaphragmatic strength was not significantly weakened after L-NAME administration, except at 10 Hz, while it did not change after SNP infusion. However, both L-NAME and SNP caused significant decreases in diaphragmatic endurance capacity. The fatigue appearing after L-NAME is probably correlated with a decline in diaphragmatic blood flow, as evidenced by the increase in SVR and the decrease in CO, and consequently in oxygen supply. In contrast, the decrease in endurance capacity after SNP infusion can be attributed to a direct action of NO on skeletal muscle.
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PMID:Effects of nitric oxide on diaphragmatic muscle endurance and strength in pigs. 902 9

1. Our aim was to determine if sympathetic vasodilatation occurs in the human forearm, and if the vasodilating substance nitric oxide contributes to this dilatation. We also sought to determine if the nitric oxide might be released as a result of cholinergic stimulation of the vascular endothelium. 2. Blood flow was measured in the resting non-dominant forearm with venous occlusion plethysmography. To increase sympathetic traffic to the resting forearm, rhythmic handgrip exercise to fatigue followed by post-exercise ischaemia was performed by the dominant forearm. A brachial artery catheter in the non-dominant arm was used to selectively infuse drugs. 3. During control conditions, there was mild vasodilatation in the resting forearm during exercise followed by constriction during post-exercise ischaemia. When exercise was performed after brachial artery administration of bretylium (to block noradrenaline release) and phentolamine (an alpha-adrenergic antagonist), profound vasodilatation was seen in the resting forearm during both exercise and post-exercise ischaemia. 4. When the nitric oxide synthase blocker NG-monomethyl-L-arginine (L-NMMA) was administered in the presence of bretylium and phentolamine prior to another bout of handgripping, little or no vasodilatation was seen either during exercise or post-exercise ischaemia. Atropine also blunted the vasodilator responses to exercise and post-exercise ischaemia after bretylium and phentolamine. 5. These results support the existence of active sympathetic vasodilatation in the human forearm and the involvement of nitric oxide in this phenomenon. They also suggest nitric oxide might be released as a result of cholinergic stimulation of the vascular endothelium.
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PMID:Evidence for nitric oxide-mediated sympathetic forearm vasodiolatation in humans. 903

1. We studied the mechanism of insulin-mediated attenuation of noradrenaline-induced vasoconstriction in mesenteric resistance arteries (approximately 210 microns diameter) from 10-week-old male Wistar rats (n = 10; weight 321 +/- 11 g). Exposure to physiological concentrations of insulin (50 m-units/l) significantly blunted the contractile response to noradrenaline over the concentration range 3 x 10(-6) to 3 x 10(-5) mol/l (16 vessels; 13.1 +/- 4.3% reduction in maximum tension at 3 x 10(-5) mol/l noradrenaline; P < 0.01 versus no insulin). 2. This effect of insulin was prevented by the nitric oxide synthase inhibitor NG-nitro-L-arginine methyl ester (10(-4) mol/l; 16 vessels; 3.3 +/- 9.1% reduction in maximum tension; P = 0.8 versus no insulin). There was no evidence of fatigue in four noradrenaline dose-response curves for 16 control vessels in the absence of insulin and NG-nitro-L-arginine methyl ester (P = 0.8; first versus second dose-response curve). With L-arginine present in the incubation medium, insulin again attenuated the noradrenaline-induced vasoconstriction (10.7 +/- 3.2% reduction in tension; P = 0.02 versus L-arginine and no insulin; P = not significant versus insulin and no L-arginine). 3. Endothelium-dependent relaxation was initially confirmed in all vessels by demonstrating normal acetylcholine- (5.4 x 10(-7) to 1.1 x 10(-4) mol/l) induced vasodilatation in vessels preconstricted with noradrenaline (6 x 10(-6) mol/l) in the absence of NG-nitro-L-arginine methyl ester, L-arginine and insulin (P = not significant between the different groups of vessels). 4. We conclude that insulin attenuates noradrenaline-induced vasoconstriction in resistance arteries by stimulation of nitric oxide release. Abnormal insulin-stimulated nitric oxide release could be of relevance in the pathogenesis of hypertension and diabetic microvascular disease.
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PMID:Insulin-induced attenuation of noradrenaline-mediated vasoconstriction in resistance arteries from Wistar rats is nitric oxide dependent. 905 15

We here present a family where three individuals in three generations had varying degrees of goiter, tachycardia, fatigue, hyperactivity, and learning disability. Serum T3 and free T4 were elevated, whereas TSH was normal or slightly increased. The clinical findings in combination with the hormone values led to several supplementary investigations and therapies being carried out, but they had no beneficial influence on the patients' symptoms. The commonest form of thyroid hormone resistance (RTH) is an autosomal dominantly inherited disorder with varying degrees of hypo- and hyperthyroidism, including the hormonal changes described above. Several mutations, particularly in exons 9 and 10 of the thyroid hormone receptor beta gene, have been described and shown to be responsible for RTH. Exons 7, 8, 9, and 10 in the thyroid hormone receptor beta gene were amplified by polymerase chain reaction and analyzed by DNA sequencing. A heterozygous point mutation in nucleotide 1244 in exon 9 was demonstrated in the two patients with RTH that were available for the study. The guanidine to thymidine point mutation changed the codon for arginine in position 320 in the receptor protein to leucine. This mutation has previously been shown to decrease receptor affinity for T3; it has been demonstrated in some patients with RTH, and it is probably the cause of RTH in the family described in this study.
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PMID:[Thyroid hormone resistance. Clinical, biochemical and genetic study of a family]. 952 May 78

Since a decline in temperature decreases aerobic capacity and slows the kinetics of exercise-to-rest transitions in ectotherms, we manipulated body temperature to better understand the performance limits of intermittent locomotion. Distance capacity (i.e., the total distance traveled before fatigue) of the ghost crab, Ocypode quadrata, was determined during acute exposure to 15 degrees C inside a treadmill-respirometer. Instead of exacerbating the near-paralyzing effects of low body temperature resulting from the frequent transitions, intermittent locomotion allowed animals to exceed the performance limits measured during steady-state locomotion. At low temperature, distance capacity for continuous locomotion at 0.04 m s(-1) (83% maximum aerobic speed) was 60 m. When 30 s of exercise at 0.08 m s(-1) (166% maximum aerobic speed) was alternated with 30 s of rest, distance capacity increased to 271 m, 4.5-fold greater than continuous locomotion at the same average speed (83% maximum aerobic speed). A 30-s pause following a 30-s exercise period was sufficient for maintaining low lactate concentrations in muscle and for partial resynthesis of arginine phosphate. A greater dependency on nonoxidative metabolism due to slowed oxygen uptake kinetics at low temperature resulted in a decreased duration of the critical exercise period, which increased performance relative to that measured at higher temperatures (30 s at 15 degrees C vs. 120 s at 24 degrees C). Despite the ghost crab's limited aerobic capacity at 15 degrees C, distance capacity during intermittent locomotion at low temperature can be comparable to that of a crab moving continuously at a body temperature 10 degrees C warmer. While endurance capacity is generally correlated with maximum aerobic speed, we have demonstrated that both locomotor behavior and body temperature must be considered when characterizing performance limits.
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PMID:Performance limits of low-temperature, continuous locomotion are exceeded when locomotion is intermittent in the ghost crab. 963 74

The role of endogenous nitric oxide (NO) in producing diaphragmatic fatigue was examined in 26 anaesthetized, mechanically ventilated dogs divided into four groups. In Group Ia (n = 5), dogs without fatigue received only Ringer's lactate solution. In Group Ib (n = 5), dogs without fatigue were given i.v. L-arginine analog N omega-nitro-L-arginine methyl ester (L-NAME) 10 mg.kg-1 to inhibit NO synthase (NOS). Groups IIa and IIb (n = 8 of each) received the same doses of i.v. lactate and L-NAME as Groups Ia and Ib effectively. Following administration of the i.v. solution, diaphragmatic fatigue was induced by intermittent supramaximal bilateral electrophrenic stimulation at a frequency of 20 Hz applied for 30 min. Diaphragmatic contractility was assessed in each group by measuring transdiaphragmatic pressure (Pdi). No difference in Pdi was observed between Groups Ia and Ib. After the fatigue-producing period, in Group IIa, Pdi at low-frequency (20 Hz) stimulation decreased from the pre-fatigued values (P < 0.05), whereas Pdi at high-frequency (100 Hz) stimulation did not change. In Group IIb, given L-NAME before producing fatigue, Pdi at both stimuli did not change. In conclusion, L-NAME inhibits the production of diaphragmatic fatigue. This finding suggests that endogenous NO plays an important role in producing diaphragmatic fatigue.
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PMID:Protection from diaphragmatic fatigue by nitric oxide synthase inhibitor in dogs. 2357 74

Studies of the effect of nitric oxide (NO) synthesis inhibition were performed in the isometrically contracting blood-perfused canine gastrocnemius-plantaris muscle group. Muscle blood flow (Q) was controlled with a pump during continuous NO blockade produced with either 1 mM L-argininosuccinic acid (L-ArgSA) or N(G)-nitro-L-arginine methyl ester (L-NAME) during repetitive tetanic contractions (50-Hz trains, 200-ms duration, 1/s). Pump Q was set to match maximal spontaneous Q (1.3-1.4 ml. min(-1). g(-1)) measured in prior, brief (3-5 min) control contraction trials in each muscle. Active tension and oxygen uptake were 500-600 g/g and 200-230 microl. min(-1). g(-1), respectively, under these conditions. Within 3 min of L-ArgSA infusion, vascular resistance across the muscle (R(v)) increased significantly (from approximately 100 to 300 peripheral resistance units; P < 0.05), whereas R(v) increased to a lesser extent with L-NAME (from approximately 100 to 175 peripheral resistance units; P < 0.05). The increase in R(v) with L-ArgSA was unchanged by simultaneous infusion of 0.5-10 mM L-arginine but was reduced with 1-3 microg/ml sodium nitroprusside (41-54%). The increase in R(v) with L-NAME was reversed with 1 mM of L-arginine. Increased fatigue occurred with infusion of L-ArgSA; active tension and intramuscular pressure decreased by 62 and 66%, whereas passive tension and baseline intramuscular pressure increased by 80 and 30%, respectively. These data indicate a possible role for NO in the control of R(v) and contractility within the canine gastrocnemius-plantaris muscle during repetitive tetanic contractions.
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PMID:Influence of nitric oxide on vascular resistance and muscle mechanics during tetanic contractions in situ. 1040 68

Although current research suggests that individuals involved in either high-intensity resistance or endurance exercise may have an increased need for dietary protein, the available research is either equivocal or negative relative to the ergogenic effects of supplementation with individual amino acids. Although some research suggests that the induction of hyperaminoacidemia via intravenous infusion of a balanced amino acid mixture may induce an increased muscle protein synthesis after exercise, no data support the finding that oral supplementation with amino acids, in contrast to dietary protein, as the source of amino acids is more effective. Some well-controlled studies suggest that aspartate salt supplementation may enhance endurance performance, but other studies do not, meriting additional research. Current data, including results for several well-controlled studies, indicated that supplementation with arginine, ornithine, or lysine, either separately or in combination, does not enhance the effect of exercise stimulation on either hGH or various measures of muscular strength or power in experienced weightlifters. Plasma levels of BCAA and tryptophan may play important roles in the cause of central fatigue during exercise, but the effects of BCAA or tryptophan supplementation do not seem to be effective ergogenics for endurance exercise performance, particularly when compared with carbohydrate supplementation, a more natural choice. Although glutamine supplementation may increase plasma glutamine levels, its effect on enhancement of the immune system and prevention of adverse effects of the overtraining syndrome are equivocal. Glycine, a precursor for creatine, does not seem to possess the ergogenic potential of creatine supplementation. Research with metabolic by-products of amino acid metabolism is in its infancy, and current research findings are equivocal relative to ergogenic applications. In general, physically active individuals are advised to obtain necessary amino acids through consumption of natural, high-quality protein foods.
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PMID:Facts and fallacies of purported ergogenic amino acid supplements. 1041 Aug 46


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