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)

Antiepileptic drugs (AEDs) have various mechanisms of actions and therefore have diverse anticonvulsant, psychiatric, and adverse effect profiles. Two global categories of AEDs are identified on the basis of their predominant psychotropic profiles. One group has "sedating" effects in association with fatigue, cognitive slowing, and weight gain, as well as possible anxiolytic and antimanic effects. These actions may be related to a predominance of potentiation of gamma-aminobutyric acid (GABA) inhibitory neurotransmission induced by drugs such as barbiturates, benzodiazepines, valproate, gabapentin, tiagabine, and vigabatrin. The other group is associated with predominant attenuation of glutamate excitatory neurotransmission and has "activating" effects, with activation, weight loss, and possibly anxiogenic and antidepressant effects. This group includes agents such as felbamate and lamotrigine. Agents such as topiramate, with both GABAergic and antiglutamatergic actions, may have "mixed" profiles. Mechanisms of actions, activity in animal models of anxiety and depression, and clinical psychotropic effects of AEDs in psychiatric and epilepsy patients are reviewed in relationship to this proposed categorization. These considerations suggest the testable hypothesis that better psychiatric outcomes in seizure disorder patients could be achieved by treating patients with baseline "activated" profiles (insomnia, agitation, anxiety, racing thoughts, weight loss) with "sedating" predominantly GABAergic drugs, and conversely those with baseline "sedated" or anergic profiles (hypersomnia, fatigue, apathy, depression, sluggish cognition, weight gain) with "activating" predominantly antiglutamatergic agents. Systematic clinical investigation of more precise relationships of discrete mechanisms of actions to psychotropic profiles of AEDs is needed to assess the utility of this general proposition and define exceptions to this broad principle.
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PMID:Positive and negative psychiatric effects of antiepileptic drugs in patients with seizure disorders. 1049 35

The gltA gene, encoding Sinorhizobium meliloti 104A14 citrate synthase, was isolated by complementing an Escherichia coli gltA mutant. The S. meliloti gltA gene was mutated by inserting a kanamycin resistance gene and then using homologous recombination to replace the wild-type gltA with the gltA::kan allele. The resulting strain, CSDX1, was a glutamate auxotroph, and enzyme assays confirmed the absence of a requirement for glutamate. CSDX1 did not grow on succinate, malate, aspartate, pyruvate, or glucose. CSDX1 produced an unusual blue fluorescence on medium containing Calcofluor, which is different from the green fluorescence found with 104A14. High concentrations of arabinose (0.4%) or succinate (0. 2%) restored the green fluorescence to CSDX1. High-performance liquid chromatography analyses showed that CSDX1 produced partially succinylated succinoglycan. CSDX1 was able to form nodules on alfalfa, but these nodules were not able to fix nitrogen. The symbiotic defect of a citrate synthase mutant could thus be due to disruption of the infection process or to the lack of energy generated by the tricarboxylic acid cycle.
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PMID:Citrate synthase mutants of Sinorhizobium meliloti are ineffective and have altered cell surface polysaccharides. 1060 Dec 20

Riluzole, after two significant trials, was introduced as the first standard treatment of amyotrophic lateral clerosis (ALS) in the early 95'. After 5 years what has changed in the field of ALS? In the field of basic science, riluzole as an active drug has largely contributed to stimulate the research of the possible role of glutamate in the genesis of ALS. However, the apparent simplicity of the relation between the drug and its mechanisms has to modulated in the light of the negativity of other trials (gabapentin) and the display of other mechanisms of the disease and of the compound. Possible relation with other putative mechanisms of ALS, as oxydative stress or growth factors, could be (and probably are) also involved. In the field of its activity, riluzole has an impact on the survival rate which has been largely debated. Comparison with historical databases are supporting the results of the two initial trials. Other information have been published supporting the probable activity of the drug on the muscle strength decline, a controversial matter. They strengthen the initial data and give additional reasons to use riluzole as a standard treatment of patients. In the field of the daily care, riluzole provided a real and unique hope for ALS sufferers. Even if its activity is not as complete as patients would have expected, it provides a hope for slowing down the rate of evolution and abolishes the myth of "no hope, no cure" which was the leitmotiv of patients care until recently. We have to better define the mode of administration with regard to the clinical status of the patients (respiratory disorders, fatigue, stiffness). In the field of care givers, riluzole was one major factor which provided the basis for national and international collaborations either for therapeutic trials or for standard of care. It made possible large collaborative programs in and among many countries. We do hope that this impulse will continue and be stimulated by additional results both in the field of basic science and clinical research.
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PMID:What has changed with riluzole? 1120 Jul 1

The contribution of amino acid oxidation to total energy expenditure is negligible during short-term intense exercise and accounts for 3-6% of the total adenosine triphosphate supplied during prolonged exercise in humans. While not quantitatively important in terms of energy supply, the intermediary metabolism of several amino acids-notably glutamate, alanine, and the branched-chain amino acids-affects other metabolites, including the intermediates within the tricarboxylic acid (TCA) cycle. Glutamate appears to be a key substrate for the rapid increase in muscle TCA cycle intermediates (TCAI) that occurs at the onset of moderate to intense exercise, due to a rightward shift of the reaction catalyzed by alanine aminotransferase (glutamate + pyruvate <==> alanine + 2-oxoglutarate). The pool of muscle TCAI declines during prolonged exercise, and this has been attributed to an increase in leucine oxidation that relies on one of the TCAI. However, this mechanism does not appear to be quantitatively important due of the relatively low maximal activity of branched-chain oxoacid dehydrogenase, the key enzyme involved. It has been suggested that an increase in TCAI is necessary to attain high rates of aerobic energy production and that a decline in TCAI may be a causative factor in local muscle fatigue. These topics remain controversial, but recent evidence suggests that changes in TCAI during exercise are unrelated to oxidative energy provision in skeletal muscle.
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PMID:Regulation of skeletal muscle amino acid metabolism during exercise. 1125 39

The purpose of this chapter is to review some of the recent progress in the understanding of the cellular and biophysical mechanisms that are involved in the regulation of arterial baroreceptor neurotransmission. Synaptic depression or fatigue following repeated neuronal stimulation has been shown at central baroreceptor synapses in vivo and in vitro. As most of the central neurons have a limited number of vesicles, vesicle retrieval or endocytosis following exocytosis is thought to play a major role in preserving synaptic transmission. We have hypothesized that central baroreceptor terminals may inhibit their own synaptic transmission via feedback activation of presynaptic metabotropic glutamate receptors (mGluRs). We have analyzed the effects of mGluR autoreceptors (group III mGluRs) on voltage-gated calcium channels using standard patch-clamp techniques and on the process of exocytosis and endocytosis in aortic baroreceptor neurons using the quantitative imaging dye FM1-43 and FM2-10. Usng the whole-cell patch-clamp technique, we have found that activation of group III mGluRs with L-AP4 inhibits peak calcium channel current. Furthermore, activation of group III mGluRs with L-AP4 markedly decreases stimulation-induced exocytosis in aortic baroreceptor neurons, as measured with FM1-43, and inhibits synapsin I phosphorylation. These results suggest that activation of group III mGluRs may inhibit synaptic transmission by (1) inhibiting calcium influx, (2) decreasing synaptic vesicle exocytosis, and (3) modulating the mechanisms governing synaptic vesicle recovery and endocytosis. These effects of mGluRs on baroreceptor synaptic vesicles may contribute to the baroreceptor/nucleus tractus solitarius synaptic depression observed in vivo.
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PMID:Cellular mechanisms regulating synaptic vesicle exocytosis and endocytosis in aortic baroreceptor neurons. 1145 71

Zinc is involved in the biochemical processes supporting life, such as cellular respiration, DNA reproduction, maintenance of cell membrane integrity and free radical scavenging. Zinc is required for the activity of more than 300 enzymes, covering all 6 classes of enzyme activity. Zinc binding sites in proteins are often of distorted tetrahedral or trigonal bipyramidal geometry, made up of the sulphur of cysteine, the nitrogen of histidine or the oxygen of aspartate and glutamate, or a combination. Zinc in proteins can either participate directly in chemical catalysis or be important for maintaining protein structure and stability. The nutritional habits of elite athletes during training and competition are quite different from the recommended diet in the majority of the population. Endurance athletes often adopt an unusual diet in an attempt to enhance performance: an excessive increase in carbohydrates and low intake of proteins and fat may lead to suboptimal zinc intake in 90% of athletes. Mild zinc deficiency is difficult to detect because of the lack of definitive indicators of zinc status. In athletes, zinc deficiency can lead to anorexia, significant loss in bodyweight, latent fatigue with decreased endurance and a risk of osteoporosis.
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PMID:Zinc status in athletes: relation to diet and exercise. 1147 19

To probe the effect of glutamine and GABA on metabolism of [U-(13)C]glutamate, cerebellar astrocytes were incubated with [U-(13)C]glutamate (0.5 mM) in the presence and absence of glutamine (2.5 mM) or GABA (0.2 mM). It could be shown that consumption of [U-(13)C]glutamate was decreased in the presence of glutamine and release of labeled aspartate and [1,2,3-(13)C]glutamate decreased as well, whereas the concentrations of these metabolites increased inside the cells. Glutamine decreased energy production from [U-(13)C]glutamate presumably by substituting for glutamate as an energy substrate. No additional effect was seen in the presence of both glutamine and GABA. When cerebellar granule neurons were incubated with [U-(13)C]glutamate (0.25 mM) and GABA (0.05 mM), less [U-(13)C]glutamate was used for energy production than in controls. Because the barbiturate thiopental did not elicit such response (Qu et al., 2000, Neurochem Int 37:207-215) it appears that GABA also has a metabolic function in the glutamatergic cerebellar granule neurons in contrast to the astrocytes.
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PMID:Effect of glutamine and GABA on [U-(13)C]glutamate metabolism in cerebellar astrocytes and granule neurons. 1174 15

We studied biochemically the effect of transient dopamine pretreatment on the regulation of glutamate transmission in medial prefrontal cortex of rats in vivo and in vitro. Aversive stimuli transiently increased the glutamate concentration and its repetition reduced the response in the medial prefrontal microdialysate of freely moving rats. The rate of habituation obeyed linear regression. The medial prefrontal intracellular calcium response to repetitive N-methyl-D-aspartate perfusion showed linearly regressive desensitization in fluorescence videomicroscopy of the fura-2 stained slice in vitro. Transient dopamine treatment 10-20 min prior to repetition restored both decreased responses in a linearly regressive manner, also indicating that their decrease was not due to fatigue. These findings suggest that the effect of transient dopamine pretreatment continues redundantly to sensitize/resensitize subsequent pre- and postsynaptic prefrontal glutamate transmission in an orderly manner.
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PMID:Sensitization of glutamate release and N-methyl-D-aspartate receptor response by transient dopamine pretreatment in prefrontal cortex of rats. 1175 49

During and after maximal exercise there is a 15-30 % decrease in the metabolic uptake ratio (O(2)/[glucose + 1/2 lactate]) and a net lactate uptake by the human brain. This study evaluated if this cerebral metabolic uptake ratio is influenced by the intent to exercise, and whether a change could be explained by substrates other than glucose and lactate. The arterial-internal jugular venous differences (a-v difference) for O(2), glucose and lactate as well as for glutamate, glutamine, alanine, glycerol and free fatty acids were evaluated in 10 healthy human subjects in response to cycling. However, the a-v difference for the amino acids and glycerol did not change significantly, and there was only a minimal increase in the a-v difference for free fatty acids after maximal exercise. After maximal exercise the metabolic uptake ratio of the brain decreased from 6.1 +/- 0.5 (mean +/- S.E.M.) at rest to 3.7 +/- 0.2 in the first minutes of the recovery (P < 0.01). Submaximal exercise did not change the uptake ratio significantly. Yet, in a second experiment, when submaximal exercise required a maximal effort due to partial neuromuscular blockade, the ratio decreased and remained low (4.9 +/- 0.2) in the early recovery (n = 10; P < 0.05). The results indicate that glucose and lactate uptake by the brain are increased out of proportion to O(2) when the brain is activated by exhaustive exercise, and that such metabolic changes are influenced by the will to exercise. We speculate that the uptake ratio for the brain may serve as a metabolic indicator of 'central fatigue'.
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PMID:The intent to exercise influences the cerebral O(2)/carbohydrate uptake ratio in humans. 1195 54

Anoxia-tolerant neurons from several species of animals may offer unparalleled opportunities to identify strategies that might be employed to enhance the hypoxia or ischemia tolerance of vulnerable neurons. In this review, the authors describe how the response of hypoxia-tolerant neurons to limited oxygen supply involves a suite of mechanisms that reduce energy expenditure in concert with decreased energy availability. This response avoids energy depletion, excitotoxic neuronal death, and apoptosis. Suppression of ion channel functions, particularly those of the ionotropic glutamate receptors, is a response common in hypoxia-tolerant neurons. The depression of excitability thereby achieved is essential given that the fundamental response to oxygen lack in anoxia-tolerant cells is a throttling down of metabolism to "pilot-light" levels. Many different types of processes have been found to down-regulate ion channel function. These include phosphorylation control, interactions with intracellular and extracellular ions, removal of active receptors from the neurolemma, and the direct sensing of oxygen by Na+ and K+ channels. Changes in [Ca2+]i may initiate a protective down-regulation of many different pumps or channels. Transcriptional events leading to differential and/or decreased expression of receptors, proteins, and their subunits are probably very important but little studied.
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PMID:Molecular adaptations for survival during anoxia: lessons from lower vertebrates. 1206 3


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