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)

Alpha-ketoisocaproic acid (KIC) is the product of the transamination of the indispensable amino acid leucine, which is the first step in the complete degradation of leucine. To determine the effects of intense exercise on muscle and blood levels of KIC, 7 male volunteers performed cycle exercise to exhaustion. After pedaling at an intensity of 90 W for 3 min, the load was increased by 60 W every 3 min until volitional fatigue. Muscle biopsies were obtained prior to and immediately after exercise and rapidly frozen for later determination of KIC. During exercise, blood lactate levels increased as expected, while plasma KIC levels did not change. Following exercise, plasma KIC levels rose significantly with peak values occurring 15 min after exercise and did not return to pre-exercise values until 60 min after exercise. In contrast, muscle KIC levels increased during exercise from a pre-exercise mean of 49.4 +/- 4.1 mumol X kg-1 wet wt to 78.1 +/- 6.5 mumol X kg-1 after exercise, an average increase of 48% (P less than 0.05). These data indicate that during intense exercise, leucine transamination in muscle may continue at a faster rate than the decarboxylation of KIC. In addition, plasma levels of KIC did not reflect the intracellular accumulation of KIC during exercise, suggesting a delay in the diffusion of KIC from muscle.
 ...
PMID:The effects of high intensity exercise on muscle and plasma levels of alpha-ketoisocaproic acid. 376 5

In order to investigate the effects of long-term exercise training on brain endorphin systems, and the latter's possible effects on the hypothalamic-pituitary-gonadal axis, female Wistar rats were subjected to daily treadmill running. A sedentary control group was also employed. After 8 weeks of training, and just prior to sacrifice, one-half of each group received a final fatiguing bout of exercise. Thus the final four groups consisted of a trained-fatigued (TF), trained-nonfatigued (TN), control-fatigued (CF), and control-nonfatigued (CN) group. Regional brain levels of beta-endorphin (beta E), methionine enkephalin and leucine enkephalin (LE) were assayed with independent RIAs from the nucleus accumbens, cortex, caudate-putamen, septum, amygdala, anterior and posterior hypothalamus, substantia nigra and ventral tegmentum. Diestrus serum levels of luteinizing hormone (LH), follicle stimulating hormone and prolactin (PRL) were also determined. Fatiguing resulted in a decrease in serum LH levels as well as an increase in beta E content in the nucleus accumbens, and LE content in the ventral tegmentum. Finally, TF animals exhibited less LE in the amygdala than the TN rats. Taken together, these changes in brain endorphins may indicate an acute, fatigue-running modulation of the hypothalamic-pituitary-gonadal axis.
 ...
PMID:Effects of exercise training on brain opioid peptides and serum LH in female rats. 609 22

The amino acid imbalance hypothesis should explain the fatigue originating in the brain during sustained exercise or over-training as a branched-chain (BCAA)/aromatic amino acids (AAA) imbalance with increased brain tryptophan uptake and 5-hydroxytryptamine synthesis. The serum amino acid profile was determined in 9 ultra-triathletes before and after completing the 1993 Colmar ultra-triathlon to additionally analyse the extent of this amino acid imbalance during such an extreme prolonged contest lasting more than 23 hours. The summed serum concentration of 25 amino acids decreased by 18% from 3962 +/- 846 to 3255 +/- 694 umol.l-1 likely reflecting a catabolic state of the organism with a decrease in 18 individual amino acids by 9-56%, an increase in cystine (+38%), methionine (+24%), tyrosine (+10%), phenylalanine (+12%), free tryptophan (+74%), and constant glutamine, leucine and total tryptophan levels. Since plasma volume increased by approximately 7.6% with a 3.3 kg body mass decrease in the athletes during the ultra triathlon, a decrease in intra-cellular water with an extra-cellular fluid increase is hypothesized. This decrease in cellular hydration state is seen as a protein-catabolic signal.
 ...
PMID:Serum amino acid concentrations in nine athletes before and after the 1993 Colmar ultra triathlon. 764 5

Nineteen bulimic women and 22 age-matched controls were randomly assigned to receive 25 g of glucose or a placebo injection under double-blind conditions. Blood samples of glucose, insulin, and glucagon, and psychometric assessments of mood and food cravings were obtained 10 min before, and 0, 5, 10, 20, 30, 45, and 60 min after injection. Blood levels of the large neutral amino acids (LNAAs) tryptophan, tyrosine, leucine, valine, phenylalanine, and leucine were determined at 10 min before and 60 min after the injection. Bulimic subjects were found to report more symptoms of distressed mood throughout the entire monitoring period than controls. Five minutes following glucose ingestion the self-reports of depression, fatigue, anxiety, and bewilderment rose to a level among the bulimic subjects that was above that at baseline, and was higher than that of bulimia nervosa (BN) subjects receiving placebo. No comparable change in mood was observed among controls. Blood glucose levels were correlated with mood in the bulimic group, but not in controls. In addition, the glucose injection induced a heightened urge to binge in the bulimic group (compared to placebo at 10 and 60 min), whereas reducing food cravings (for sweets) in the controls (at 5 min). When collapsed across time and injection condition, the blood glucose level of bulimics was lower than that of controls. There were no differences in insulin response between the groups. The bulimic group was found to have lower baseline levels of blood tryptophan, whereas no differences in the tryptophan/LNAA ratio were observed either at baseline or following glucose.(ABSTRACT TRUNCATED AT 250 WORDS)
 ...
PMID:A double-blind placebo-controlled glucose challenge in bulimia nervosa: psychological effects. 844 64

Congestive heart failure is often associated with skeletal muscle abnormalities that contribute to early fatigue and acidosis. Up to the present time, however, the mechanisms responsible for these changes are unclear. Myocardial infarctions were produced by coronary ligation in adult Sprague-Dawley rats. At 20 weeks, 10 control rats, and 15 animals with heart failure [defined by elevated LVEDP (26.1 +/- 3.1 v 2.5 +/- 0.5 mmHg) and RV hypertrophy (300 +/- 21 g v 158 +/- 9 mg)] underwent in vivo measurements of total body, and soleus total protein and myosin heavy chain (MHC) synthesis by [3H]leucine constant infusion. Soleus muscle was also analysed for protein content, and MHC isoenzyme content by SDS-PAGE. Northern blotting also was used to determine levels of the mRNA's encoding type I, IIa, IIb, and IIx MHC, alpha-skeletal actin, COX III, SDH and GAPDH. Soleus muscles in heart failure rats were smaller than controls (112 +/- 6 v 126 +/- 5 mg) and the degree of atrophy was significant when corrected for body mass (0.38 +/- 0.02 v 0.46 +/- 0.02 mg/g. P = 0.007). Although there was no significant difference in plasma leucine flux (an index of whole-body protein synthesis), soleus muscle total and MHC synthesis was reduced in heart failure animals. Whereas the Type I MHC isoenzyme (beta MHC) was the only MHC detected in the soleus of control animals, type II MHC isoenzyme comprised 11.8 +/- 3.1% of the MHC in the heart failure group. Furthermore, steady-state mRNA levels encoding beta MHC were significantly depressed in the heart failure rats, where those encoding Types IIb and IIx MHC were increased. Steady-state mRNA levels of alpha-skeletal actin, cytochrome C oxidase (COX III) and succinate dehydrogenase (SDH) were also significantly depressed. This animal model of chronic heart failure is associated with quantitative and qualitative alterations in skeletal muscle gene expression that are similar to those reported in skeletal muscle of patients with chronic heart failure. The altered phenotype and impaired metabolic capacity may contribute to exercise intolerance in CHF.
 ...
PMID:Alterations in skeletal muscle gene expression in the rat with chronic congestive heart failure. 887 78

Deficiency of complex I (reduced nicotinamide adenine dinucleotide dehydrogenase-ubiquinone oxidoreductase) of the mitochondrial respiratory chain may be seen as a pure myopathy or as a neuromuscular disorder at presentation. Efficacy of long- term therapy for these disorders is yet to be established. We report the case of a female patient with complex I deficiency and skeletal myopathy, who has had a sustained clinical response to riboflavin during 3 years of therapy. Molecular studies found no mutations in the putative flavin mononucleotide binding site in the 51 kd subunit of complex I, but a T-to-C transition at nucleotide 3250 in the mitochondrial DNA tRNA(Leu(UUR)) gene was identified. This mutation has been reported in one other family in that five members had fatigue with or without muscle weakness. There were also five cases of unexplained infant deaths in that family and two cases in the family reported here. Riboflavin therapy should be attempted in all patients with complex I deficiency when the clinical presentation is one of isolated skeletal myopathy.
 ...
PMID:Mitochondrial myopathy with tRNA(Leu(UUR)) mutation and complex I deficiency responsive to riboflavin. 900 64

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.
 ...
PMID:[Thyroid hormone resistance. Clinical, biochemical and genetic study of a family]. 952 May 78

Six amino acids are metabolized in resting muscle. They are leucine, isoleucine, valine, asparagine, aspartate, and glutamate. These amino acids provide the amino groups and probably the ammonia required for synthesis of glutamine and alanine, which are released in excessive amounts in the postabsorptive state and during ingestion of a protein-containing meal. Only leucine and part of the isolecine molecule can be oxidized in muscle as they are converted to acetyl-CoA. The other carbon skeletons are used solely for de novo synthesis of TCA-cycle intermediates and glutamine. The carbon atoms of the released alanine originate primarily from glycolysis of blood glucose and from muscle glycogen (about half each in resting conditions). After consumption of a protein-containing meal, BCAA and glutamate are taken up by muscle and their carbon skeletons are used for de novo synthesis of glutamine. About half of the glutamine released from muscle originates from glutamate taken up from the blood, both after overnight starvation, after prolonged starvation, and after consumption of a mixed meal. Glutamine produced by muscle is an important fuel and regulator of DNA and RNA synthesis in mucosal cells and immune system cells, and fulfils several other important functions in human metabolism. The alanine aminotransferase reaction functions to establish and maintain high concentrations of TCA-cycle intermediates in muscle during the first 10 min of exercise. The increase in concentration of TCA-cycle intermediates probably is needed to increase the flux of the TCA-cycle and meet the increased energy demand of exercise. A gradual increase in leucine oxidation subsequently leads to a carbon drain on the TCA-cycle in glycogen-depleted muscles, and may thus reduce the maximal flux in the TCA-cycle and lead to fatigue. Deamination of amino acids and glutamine synthesis present alternative anaplerotic mechanisms in glycogen-depleted muscles, but only allow exercise at 40-50% of Wmax. One-leg exercise leads to the net breakdown of muscle protein. The liberated amino acids are used for synthesis of TCA-cycle intermediates and glutamine. Today, the importance of this process in endurance exercise in the field (running or cycling) in athletes who ingest carbohydrates is not clear. It is proposed that the maximal flux in the TCA-cycle is reduced in glycogen-depleted muscles due to insufficient TCA-cycle anaplerosis, and that this presents a limitation for the maximal rate of fatty acid oxidation. Interactions between the amino acid pool and the TCA-cycle are suggested to play a central role in the energy metabolism of the exercising muscle.
 ...
PMID:Muscle amino acid metabolism at rest and during exercise: role in human physiology and metabolism. 969 93

Muscle proteins turn over slowly and there are minimal diurnal changes in the size of the muscle protein pool in response to feeding and fasting. Nitrogen balance and tracer studies indicate that protein oxidation and net protein breakdown (degradation--synthesis) is not increased during dynamic exercise at intensities of < or = 70% VO2max. An imbalance between muscle protein synthesis and degradation does exist during one leg knee extensor exercise and during two legged cycling in patients with glycogen phosphorylase deficiency. In these latter cases amino acids liberated from the protein pool are used for synthesis of TCA-cycle intermediates and glutamine. Six amino acids are metabolized in resting muscle: leucine, isoleucine, valine, asparagine, aspartate and glutamate. Only leucine and part of the isoleucine molecule can be converted to acetylCoA and oxidized. The carbon skeleton of the other amino acids is used for synthesis of TCA-cycle intermediates and glutamine. The six amino acids provide the amino groups and the ammonia for synthesis of glutamine and alanine, which are released by muscle in excessive amounts. About half of the glutamine release from muscle originates from glutamate taken up from the blood. Glutamine produced by muscle is an important fuel and regulator of DNA and RNA synthesis in mucosal cells and immune system cells and fulfils several other important functions in human metabolism. The alanine aminotransferase reaction functions to establish and maintain high concentrations of TCA-cycle intermediates and a high TCA cycle flux in the first minutes of exercise. A gradual increase in leucine oxidation subsequently leads to a carbon drain on the TCA-cycle in glycogen depleted muscles and may thus reduce the maximal flux in the TCA-cycle and lead to fatigue. Deamination of amino acids and glutamine synthesis present alternative anaplerotic mechanisms in glycogen depleted muscles but only allow exercise at 40-50% of Wmax. It is proposed that the maximal flux in the TCA-cycle is reduced in glycogen depleted muscles due to insufficient TCA-cycle anaplerosis and that this presents a limitation for the maximal rate of fatty acid oxidation. Interactions between the amino acid pool and the TCA-cycle thus seem to play a central role in the energy metabolism of the exercising muscle.
 ...
PMID:Protein and amino acid metabolism in human muscle. 978 36

We examined the effect of an isolated bout of maximal tolerated passive stretch on fractional muscle protein synthetic rate in human soleus muscle. Eight healthy males performed two separate trials with the same leg: one session of passive stretch and one of intermittent active isometric contraction at a force equivalent to that which occurred during the passive stretch trial. This force was approximately 40% of maximum voluntary contraction force and produced volitional fatigue in approximately 27 min. Intermittent passive stretch, for the same duration, elicited a 6.1 degrees increase in joint angle (P<.0005) with silent electromyography. Fractional protein synthetic rate from experimental and control soleus in each trial was assessed from biopsy samples over the period 10-22 hr postexercise by the incorporation rate of L-[1-13C] leucine into muscle. Protein synthesis was elevated in the soleus of the exercised leg following the active contraction trial by 49% (P<.05) but not following the passive stretch trial. Results indicate that a single bout of maximal passive stretch does not significantly elevate fractional muscle protein synthetic rate in humans and thus suggests that muscle stretch per se is not the stimulus for the muscle hypertrophy that occurs with resistance training.
 ...
PMID:The effects of acute passive stretch on muscle protein synthesis in humans. 1093 34


<< Previous 1 2 3 4 5 6 7 Next >>