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)

After severe trauma or disease glutamine (GLN) is mobilised from all muscles, including the heart and smooth muscles. The result is weakness and fatigue which affects recovery. The breakdown of muscle tissue can be counteracted by external GLN supply. There are concerns, however, that increasing the blood glutamine (Blood-GLN) concentration in patients with acute brain diseases is harmful by elevating the CNS interstitial (IS) concentration of glutamate (CNS-GLT), and that this may result in a secondary excitotoxic injury. We therefore studied the IS CNS-GLN and CNS-GLT when a commercially available nutritional amino acid solution was given intravenously. Ten NICU patients were included. The IS concentrations of amino acids in the brain were measured using intracerebral microdialysis. Blood concentrations of amino acids were measured before and after the amino acid infusion. The change in Blood-GLN was 2.14 (median; range 1.34-3.22) times the basal levels and Blood-GLT increased 1.37 (median; range 0.93-3.45) times basal levels. Both changes were statistically significant. The changes in CNS-GLN was 1.21 (median; range 0.72-1.92) and for CNS-GLT 0.96 (median; range 0.45-1.53) times the basal levels. This was statistically significant for CNS-GLN but not for CNS-GLT. A high initial CNS-GLT (55.3 micromol/l) in one patient increased even further to 84.4 micromol/l after infusion of amino acid solution. We submit that nutritional amino acid solutions can be administrated to some patients with acute brain disease without increasing the CNS-GLT values. However, since BBB function was not quantified in our study, further evaluation of this issue is warranted.
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PMID:Cerebral interstitial levels of glutamate and glutamine after intravenous administration of nutritional amino acids in neurointensive care patients. 1589 76

Synaptic activation at low frequency is often used to probe synaptic function and synaptic plasticity, but little is known about how such low-frequency activation itself affects synaptic transmission. In the present study, we have examined how the perforant path-dentate granule cell (PP-GC) synapse adapts to low-frequency activation from a previously non-activated (naive) state. Stimulation at 0.2 Hz in acute slices from developing rats (7-12 days old) caused a gradual depression of the AMPA EPSC (at -80 mV) to about half within 50 stimuli. This synaptic fatigue was unaffected by the NMDA and metabotropic glutamate (mGlu) receptor antagonists d-AP5 and LY-341495. A smaller component of this synaptic fatigue was readily reversible when switching to very low-frequency stimulation (0.033-0.017 Hz) and is attributed to a reversible decrease in release probability, which is probably due to depletion of readily releasable vesicles. Thus, it was expressed to the same extent by AMPA and NMDA EPSCs, and was associated with a decrease in quantal content (measured as 1/CV(2)) with no change in the paired-pulse ratio. The larger component of the synaptic fatigue was not readily reversible, was selective for AMPA EPSCs and was associated with a decrease in 1/CV(2), thus probably representing silencing of AMPA signalling in a subset of synapses. In adult rats (> 30 days old), the AMPA silencing had disappeared while the low-frequency depression remained unaltered. The present study has thus identified two forms of synaptic plasticity that contribute to fatigue of synaptic transmission at low frequencies at the developing PP-GC synapse; AMPA silencing and a low-frequency depression of release probability.
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PMID:Synaptic fatigue at the naive perforant path-dentate granule cell synapse in the rat. 1623 73

Bergmann glial cells enclose synapses throughout the molecular layer of the cerebellum and express extrasynaptic AMPA receptors and glutamate transporters. Accordingly, stimulation of parallel fibres leads to the generation of inward currents in the glia due to AMPA receptor activation and electrogenic uptake of glutamate. Elimination of AMPA receptor Ca(2+) permeability leads to the withdrawal of glial processes and synaptic dysfunction, suggesting that AMPA receptor-mediated Ca(2+) signalling is essential for glial support of the neuronal network. Here we show that glial extrasynaptic currents (ESCs) exhibit activity-dependent plasticity, specifically, long-term depression during repetitive stimulation of parallel fibres at low frequencies (0.033-1 Hz) -- conditions in which Purkinje neuron excitatory postsynaptic currents (EPSCs) remain stable. Both the rate of onset and the magnitude of ESC depression increased with stimulation frequency. Depression was reversible following brief periods of stimulation, but became increasingly persistent as the duration of repetitive stimulation increased. All glial currents -- AMPA receptors, glutamate transporter and a recently discovered slow 1,2,3,4-tetrahydro-6-nitro-2,3-dioxo-benzo[f]quinoxaline-7-sulphonamide (NBQX)-sensitive current -- were depressed. Increasing presynaptic release probability by doubling external Ca(2+) concentration did not affect the time course of depression, suggesting that neither decreased release probability nor fatigue of release sites contribute to depression. Inhibition of glutamate uptake caused a dramatic enhancement of the rate of depression, implicating glutamate in the underlying mechanism. The strength of neuron to glial signalling in the cerebellum is therefore dynamically regulated, independently of adjacent synapses, by the frequency of parallel fibre activity.
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PMID:Long-term depression of neuron to glial signalling in rat cerebellar cortex. 1642 Apr 66

Topiramate, a derivative of the monosaccharide d-fructose, has shown a wide spectrum of antiepileptic efficacy in both animal models and clinical trials. Multiple putative mechanisms of action include voltage-sensitive sodium channel blockade, calcium channel inhibition, increase of potassium conductance, GABA-mediated chloride current increment, glutamate-mediated neurotransmission inhibition and carbonic anhydrase isoenzyme inhibition. In general, the clinical response is maintained in the long-term. The most common side effects include somnolence, fatigue, headache, psychomotor slowing, confusion, difficulty with memory, impaired concentration and attention, speech and language problems and weight loss. If slowly titrated and used at a low-to-medium dosage, it is well tolerated and offers a valid therapeutic option, the relevance of which is comparable to that of the most widely used 'old' antiepileptic drugs. As it is not yet wholly clear which specific epilepsy syndromes may benefit most from topiramate with respect to other drugs, more accurate indications for initial monotherapy would require syndrome-oriented trials and more clinical experience.
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PMID:Topiramate and its clinical applications in epilepsy. 1655 95

Sarcopenia describes the involuntary decline in muscle mass with aging, coupled with fatigue, and loss of force and function. We investigated 113 human muscle biopsy specimens obtained from patients with neuromuscular diseases and controls. We measured 21 amino acids in these muscle biopsies. Age emerged as a significant negative predictor of cytosolic concentration ratio of glutamine to total branched chain amino acids and of glutamine to total aromatic amino acids using stepwise multiple linear regression analysis. This pattern of alteration corresponds well to documented alterations in skeletal muscle of critically ill patients and after immobilization. Additionally, in myositis, citrulline was significantly elevated, while glutamate, lysine and taurine were significantly reduced. Furthermore, in sporadic amyotrophic lateral sclerosis (sALS) the total aromatic amino acids, arginine, glutamate, threonine, and tyrosine were significantly elevated. This study provides evidence, that alteration of glutamine is correlated to aging and might reflect increased proteolysis in aged and diseased human skeletal muscle.
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PMID:Age related profiles of free amino acids in human skeletal muscle. 1664 14

Dynamin I is dephosphorylated at Ser-774 and Ser-778 during synaptic vesicle endocytosis (SVE) in nerve terminals. Phosphorylation was proposed to regulate the assembly of an endocytic protein complex with amphiphysin or endophilin. Instead, we found it recruits syndapin I for SVE and does not control amphiphysin or endophilin binding in rat synaptosomes. After depolarization, syndapin showed a calcineurin-mediated interaction with dynamin. A peptide mimicking the phosphorylation sites disrupted the dynamin-syndapin complex, not the dynamin-endophilin complex, arrested SVE and produced glutamate release fatigue after repetitive stimulation. Pseudophosphorylation of Ser-774 or Ser-778 inhibited syndapin binding without affecting amphiphysin recruitment. Site mutagenesis to alanine arrested SVE in cultured neurons. The effects of the sites were additive for syndapin I binding and SVE. Thus syndapin I is a central component of the endocytic protein complex for SVE via stimulus-dependent recruitment to dynamin I and has a key role in synaptic transmission.
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PMID:Syndapin I is the phosphorylation-regulated dynamin I partner in synaptic vesicle endocytosis. 1664 48

The purpose of this study was to investigate the effects of jaw-muscle fatigue evoked by low-level tooth-clenching followed by the induction of experimental muscle pain by injection of glutamate on the perception of fatigue and pain and on the resting electromyographic (EMG) activity. In addition, the role of gender on these interactions was studied. The EMG activities of bilateral masseter (MAL, MAR) and temporalis (TAL, TAR) muscles in 11 healthy young women and 12 men were measured before (Baseline) and after tooth-clenching for 30 min at 10% of maximal force (Post1), after subsequent glutamate (Glu) or isotonic saline (Iso) injection into the MAL following the tooth-clenching (Post2) and 60 min after tooth-clenching (Post3). The intensities of fatigue, fatigue-related muscle pain and headache-like symptoms were scored on 0-10 cm visual analog scales (VAS). The glutamate-evoked pain was continuously scored on an electronic VAS. Sustained low-level tooth-clenching consistently produced fatigue sensation, fatigue-related muscle pain and headache-like symptoms in both genders with significantly higher fatigue VAS scores in men than in women, while the accompanying increase in the resting EMG activity appears higher in women than in men in the masseter muscles. In this study no gender differences were found for the perceived amount of experimental pain induced by glutamate injection. Additional increases of the resting EMG activity after injections occurred only in men in the injected masseter muscle and non-injected temporalis muscles. The present findings provide new information on the complex influence of gender on sensory-motor integration in the trigeminal system which may contribute to differences in susceptibility to develop musculoskeletal pain problems.
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PMID:Effects of muscle fatigue induced by low-level clenching on experimental muscle pain and resting jaw muscle activity: gender differences. 1668 Apr 24

Being awake, alert, and able to function in our 24-7 world is a challenge in the face of the fatigue and sleepiness engendered by long work hours, unusual work schedules, sickness, and other factors. Development of effective treatments to combat fatigue and sleepiness requires an understanding of the neurobiology of wakefulness. In this brief review, we examine the neuroanatomical, neurochemical, and molecular basis of the wakeful state to provide a framework for understanding current and future pharmacologic approaches to modification of wakefulness. The spontaneously awake state can be defined as a natural state of vigilance or arousal differing from natural sleep in both behavior and neural activity. These differences have long intrigued researchers and largely have been characterized in the brain areas and neurochemical systems affecting the sleep and wake states. Many of the strategies for promoting the awake condition involve manipulation or modulation of specific neurochemical systems with the ultimate goal of enhancing wakefulness, diminishing sleepiness, or both. Wakefulness is an important cortical function that depends on the coordinated effort of multiple brain areas including the thalamus, hypothalamus, and basal forebrain to integrate and relay information from the brainstem to the cortex. Norepinephrine and serotonin-long considered arousal-enhancing transmitters as well as glutamate, acetylcholine, histamine, and the neuromodulators hypocretin-orexins and adenosine, are known to affect the signal transduction in these brain areas and initiate, promote, or enhance wakefulness. Use of molecular tools to evaluate the awake, asleep, and sleep-deprived state has revealed novel insights concerning the gene expression events associated with wakefulness. Understanding wakefulness at this level undoubtedly will contribute to the development of pharmacologic approaches to promote or enhance the wakeful state. We caution, however, that sleep may have a necessary, restorative function for the brain; therefore, prolonging wakefulness for long periods through artificial means could have unexpected and perhaps detrimental consequences on brain health.
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PMID:The pharmacology of wakefulness. 1697 20

The neural circuitry that constrains visual acuity in the CNS has not been experimentally identified. We show here that zebrafish blumenkohl (blu) mutants are impaired in resolving rapid movements and fine spatial detail. The blu gene encodes a vesicular glutamate transporter expressed by retinal ganglion cells. Mutant retinotectal synapses release less glutamate, per vesicle and per terminal, and fatigue more quickly than wild-type in response to high-frequency stimulation. In addition, mutant axons arborize more extensively, thus increasing the number of synaptic terminals and effectively normalizing the combined input to postsynaptic cells in the tectum. This presumably homeostatic response results in larger receptive fields of tectal cells and a degradation of the retinotopic map. As predicted, mutants have a selective deficit in the capture of small prey objects, a behavior dependent on the tectum. Our studies successfully link the disruption of a synaptic protein to complex changes in neural circuitry and behavior.
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PMID:Vesicular glutamate transport at a central synapse limits the acuity of visual perception in zebrafish. 1719 24

The neurotrophin brain-derived neurotrophic factor (BDNF) plays an important role in neuronal survival, axonal and dendritic growth and synapse formation. BDNF has also been reported to mediate visual cortex plasticity. Here we studied the cellular mechanisms of BDNF-mediated changes in synaptic plasticity, excitatory synaptic transmission and long-term potentiation (LTP) in the visual cortex of heterozygous BDNF-knockout mice (BDNF(+/-)). Patch-clamp recordings in slices showed an approximately 50% reduction in the frequency of miniature excitatory postsynaptic currents (mEPSCs) compared to wild-type animals, in the absence of changes in mEPSC amplitudes. A presynaptic impairment of excitatory synapses from BDNF(+/-) mice was further indicated by decreased paired-pulse ratio and faster synaptic fatigue upon prolonged repetitive stimulation at 40 Hz. In accordance, presynaptic theta-burst stimulation (TBS) failed to induce LTP at layer IV to layers II-III synapses during extracellular field-potential recordings in BDNF(+/-) animals. Changes in postsynaptic function could not be detected, as no changes were observed in either the amplitudes of evoked EPSCs, the ratios of AMPA : NMDA currents or the kinetics of evoked AMPA and NMDA EPSCs. In line with this observation, an LTP pairing paradigm that relies on direct postsynaptic depolarization under patch-clamp conditions could be induced successfully in BDNF(+/-) animals. These data suggest that a chronic reduction in the expression of BDNF to nearly 50% attenuates the efficiency of presynaptic glutamate release in response to repetitive stimulation, thereby impairing presynaptically evoked LTP in the visual cortex.
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PMID:Reduced presynaptic efficiency of excitatory synaptic transmission impairs LTP in the visual cortex of BDNF-heterozygous mice. 1722


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