UMLS:C0002736 - FACTA Search

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Query: UMLS:C0002736 (amyotrophic lateral sclerosis)
19,048 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Modern molecular biology has revealed vast numbers of large and complex proteins and genes that regulate body function. By contrast, discoveries over the past ten years indicate that crucial features of neuronal communication, blood vessel modulation and immune response are mediated by a remarkably simple chemical, nitric oxide (NO). Endogenous NO is generated from arginine by a family of three distinct calmodulin- dependent NO synthase (NOS) enzymes. NOS from endothelial cells (eNOS) and neurons (nNOS) are both constitutively expressed enzymes, whose activities are stimulated by increases in intracellular calcium. Immune functions for NO are mediated by a calcium-independent inducible NOS (iNOS). Expression of iNOS protein requires transcriptional activation, which is mediated by specific combinations of cytokines. All three NOS use NADPH as an electron donor and employ five enzyme cofactors to catalyze a five-electron oxidation of arginine to NO with stoichiometric formation of citrulline. The highest levels of NO throughout the body are found in neurons, where NO functions as a unique messenger molecule. In the autonomic nervous system NO functions NO functions as a major non-adrenergic non-cholinergic (NANC) neurotransmitter. This NANC pathway plays a particularly important role in producing relaxation of smooth muscle in the cerebral circulation and the gastrointestinal, urogenital and respiratory tracts. Dysregulation of NOS activity in autonomic nerves plays a major role in diverse pathophysiological conditions including migraine headache, hypertrophic pyloric stenosis and male impotence. In the brain, NO functions as a neuromodulator and appears to mediate aspects of learning and memory. Although endogenous NO was originally appreciated as a mediator of smooth muscle relaxation, NO also plays a major role in skeletal muscle. Physiologically muscle-derived NO regulates skeletal muscle contractility and exercise-induced glucose uptake. nNOS occurs at the plasma membrane of skeletal muscle which facilitates diffusion of NO to the vasculature to regulate muscle perfusion. nNOS protein occurs in the dystrophin complex in skeletal muscle and NO may therefore participate in the pathophysiology of muscular dystrophy. NO signalling in excitable tissues requires rapid and controlled delivery of NO to specific cellular targets. This tight control of NO signalling is largely regulated at the level of NO biosynthesis. Acute control of nNOS activity is mediated by allosteric enzyme regulation, by posttranslational modification and by subcellular targeting of the enzyme. nNOS protein levels are also dynamically regulated by changes in gene transcription, and this affords long-lasting changes in tissue NO levels. While NO normally functions as a physiological neuronal mediator, excess production of NO mediates brain injury. Overactivation of glutamate receptors associated with cerebral ischemia and other excitotoxic processes results in massive release of NO. As a free radical, NO is inherently reactive and mediates cellular toxicity by damaging critical metabolic enzymes and by reacting with superoxide to form an even more potent oxidant, peroxynitrite. Through these mechanisms, NO appears to play a major role in the pathophysiology of stroke, Parkinson's disease, Huntington's disease and amyotrophic lateral sclerosis.
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PMID:Endogenous nitric oxide synthesis: biological functions and pathophysiology. 1063 Jun 82

In the present study we analyze the molecular mechanisms underlying motor neuron degeneration in familial amyotrophic lateral sclerosis (FALS). For this, we used a transgenic mouse model expressing the Cu/Zn superoxide dismutase (SOD1) gene with a Gly(86) to Arg (G86R) mutation equivalent to that found in a subset of human FALS. Using an optimized suppression subtractive hybridization method, a cDNA specifically up-regulated during the asymptomatic phase in the lumbar spinal cord of G86R mice was identified by sequence analysis as the KIF3-associated protein (KAP3), a regulator of fast axonal transport. RT-PCR analysis revealed that KAP3 induction was an early event arising long before axonal degeneration. Immunohistochemical studies further revealed that KAP3 protein predominantly accumulates in large motor neurons of the ventral spinal cord. We further demonstrated that KAP3 up-regulation occurs independent of any change in the other components of the kinesin II complex. However, since the ubiquitous KIF1A motor is up-regulated, our results show an early and complex rearrangement of the fast axonal transport machinery in the course of FALS pathology.
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PMID:Differential screening of mutated SOD1 transgenic mice reveals early up-regulation of a fast axonal transport component in spinal cord motor neurons. 1096

Mutations in copper,zinc-superoxide dismutase (SOD) have been implicated in familial amyotrophic lateral sclerosis (FALS). We have investigated the breakdown of S-nitrosothiols by wild-type (WT) SOD and two common FALS mutants, alanine-4 valine (A4V) SOD and glycine-37 arginine (G37R) SOD. In the presence of glutathione, A4V SOD and G37R SOD catalyzed S-nitrosoglutathione breakdown three times more efficiently than WT SOD. Indeed, A4V SOD catabolized GSNO more efficiently than WT SOD throughout the physiological range of GSH concentrations. Moreover, a variety of additional S-nitrosothiols were catabolized more readily by A4V SOD than by WT SOD. Initial rate data for fully reduced WT SOD and A4V SOD, and data using ascorbic acid as the reductant, suggest that FALS mutations in SOD may influence the efficiency of reduction of the copper center by glutathione. We have identified a potentially toxic gain of function of two common FALS mutations that may contribute to neurodegeneration in FALS.
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PMID:Accelerated s-nitrosothiol breakdown by amyotrophic lateral sclerosis mutant copper,zinc-superoxide dismutase. 1151 6

The present study compares the sensitivity to chronic exposure to glutamate agonists of SMI-32-positive rat-derived embryonic motoneurons under both mixed neuron/glia and purified cultures. We found that in spite of a trophic role of glia on cultured motoneurons, SMI-32-positive cells are more sensitive to excitotoxicity in the presence of glia than in purified culture, very likely through nitric oxide released by non-neuronal cells. The rank order of potency for inducing toxicity after 48 h incubation was AMPA>kainate>NMDA, with EC(50): 0.43, 4.9 and 49 microM, respectively, in mixed neuron/glia culture and 14, 32 and 135 microM in purified cultures. The effect of NMDA was dose-dependently potentiated by glycine, with similar potency in the two culture conditions. The effect of agonists was completely antagonized by the specific antagonists CNQX, BNQX and MK801 in both culture conditions. Motoneurons were similarly immunoreactive to NR1 and GluR2 antibodies under both mixed neuron/glia and purified cultures, thus confirming the presence of the calcium-impermeant AMPA receptor subtypes and of the obligatory subunit for NMDA receptors. The effect of kainate in mixed neuron/glia culture was reduced by the addition of 40 microM N-nitro-L-arginine or L-NAME, which shifted the EC(50) to 9 microM. By contrast, L-NAME did not modify the effect of kainic acid in purified cultures. These results suggest that the release of nitric oxide by non-neuronal cells in culture enhances glutamate excitotoxicity in SMI-32-positive cells, and that direct activation of ionotropic glutamate receptors is not enough to explain the mechanism of chronic motoneuron degeneration occurring in vivo in amyotrophic lateral sclerosis (ALS).
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PMID:Nitric oxide produced by non-motoneuron cells enhances rat embryonic motoneuron sensitivity to excitotoxins: comparison in mixed neuron/glia or purified cultures. 1170 Nov 54

Major achievements made over the last several years have highlighted the important roles of creatine and the creatine kinase reaction in health and disease. Inborn errors of metabolism have been identified in the three main steps involved in creatine metabolism: arginine:glycine amidinotransferase (AGAT), S-adenosyl-L-methionine:N-guanidinoacetate methyltransferase (GAMT), and the creatine transporter. All these diseases are characterized by a lack of creatine and phosphorylcreatine in the brain, and by (severe) mental retardation. Similarly, knockout mice lacking the brain cytosolic and mitochondrial isoenzymes of creatine kinase displayed a slightly increased creatine concentration, but no phosphorylcreatine in the brain. These mice revealed decreased weight gain and reduced life expectancy, disturbed fat metabolism, behavioral abnormalities and impaired learning capacity. Oral creatine supplementation improved the clinical symptoms in both AGAT and GAMT deficiency, but not in creatine transporter deficiency. In addition, creatine supplementation displayed neuroprotective effects in several animal models of neurological disease, such as Huntington's disease, Parkinson's disease, or amyotrophic lateral sclerosis. All these findings pinpoint to a close correlation between the functional capacity of the creatine kinase/phosphorylcreatine/creatine system and proper brain function. They also offer a starting-point for novel means of delaying neurodegenerative disease, and/or for strengthening memory function and intellectual capabilities.Finally, creatine biosynthesis has been postulated as a major effector of homocysteine concentration in the plasma, which has been identified as an independent graded risk factor for atherosclerotic disease. By decreasing homocysteine production, oral creatine supplementation may, thus, also lower the risk for developing, e.g., coronary heart disease or cerebrovascular disease. Although compelling, these results require further confirmation in clinical studies in humans, together with a thorough evaluation of the safety of oral creatine supplementation.
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PMID:Health implications of creatine: can oral creatine supplementation protect against neurological and atherosclerotic disease? 1204 43

We recently demonstrated that tumor necrosis factor alpha activates caspase 6, which in turn cleaves transcription factor AP-2 alpha. We mapped the cleavage site at 19 amino acids from the N-terminus at the sequence aspartate-argenine-histidine-aspartate (DRHD). Mutating aspartic acid at position 19 abrogated the cleavage site. From these observations, we hypothesized that the DRHD peptide could act as a caspase 6 inhibitor. To test this hypothesis, the peptide zAsp(Ome)-Arg-His-Asp(Ome)-fluoromethyl ketone (zDRHDfmk) was synthesized. Here we show that zDRHDfmk inhibits TNFalpha-induced caspase 6 activity and apoptosis in breast cancer cells. When compared to other caspase inhibitors, zDRHDfmk inhibited caspase 6 activity more effectively than the general caspase inhibitor zVal-Ala-Lys(Ome)-fluoromethy ketone (zVADfmk) or the caspase 6 inhibitor zVal-Glu-Ile-Asp-(Ome)-fluoromethyl ketone (zVEIDfmk). However, it was less effective in inhibiting TNFalpha-induced apoptosis than zVADfmk or zVEIDfmk, presumably because caspase 6 is only one of at least three effector caspases, the others being caspase 3 and 7, that are active during caspase-dependent apoptosis. The discovery of this sequence-based caspase 6 inhibitor provides a new tool for studying caspase 6. More importantly, it could be used, in combination with other agents, as a drug to inhibit apoptosis in neurodegenrative diseases such as Alzheimer's, Parkinson and amyotrophic lateral sclerosis.
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PMID:Sequence-based discovery of a synthetic peptide inhibitor of caspase 6. 1281 80

Previous investigations showed an impairment of amino acids (AA) metabolism in amyotrophic lateral sclerosis (ALS). It was hypothesized that excitatory AA may play an important role in the etiopathogenesis of this disease. The aim of the study was to determine plasma AA concentrations in ALS patients, and to examine the relationship between AA and the clinical state of ALS patients, the type of ALS onset and the duration of the disease. The study involved 20 ALS patients and 30 control group people. The AA analysis was performed by ion - exchange chromatography on an automatic AA analyser. The results showed significantly decreased concentrations of valine, isoleucine, leucine, tyrosine and aspartate in the plasma of the whole group of ALS patients compared to the control group, and a significantly decreased concentration of arginine in the patients with a long duration of ALS compared to the patients with a short duration. The clinical state of ALS patients significantly influenced only plasma alanine concentration. Other plasma AA concentrations were not significantly associated with clinical parameters of the disease. Our study confirms that metabolic abnormalities concerning AA exist in ALS patients. However, the normal plasma glutamate concentration observed in this study in the whole group of ALS patients compared to the controls does not exclude that this excitatory AA may play a role in neurodegeneration in ALS.
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PMID:Plasma amino acids concentration in amyotrophic lateral sclerosis patients. 1283 61

As glutamate is a dominant excitatory neurotransmitter in the central nervous system, glutamate receptors, and especially AMPA receptors, are located ubiquitously in all brain areas. In this paper, we reviewed recent advances of studies on AMPA receptor functions. AMPA receptors are cation-conducting complexes composed of various combinations of four subunits (GluR1 to GluR4). The glutamine residue located in the pore-forming segment of GluR2 subunit (Q/R site) is changed to arginine by RNA editing at the pre mRNA stage in normal adult mammalian animal. The edited GluR2 subunit is a major determination of Ca(2+) permeability of the AMPA receptor; only edited GluR2-lacking receptor shows high-Ca(2+) permeability. The assembly of glutamate AMPA receptor subunit is not completely according to the stochastic theory. The heteromeric subunits assembly is more rapid than the homomeric assembly is. The transfer of AMPA receptor subunit to the plasma membrane is conducted in multiple ways. Many molecules that interact with the intracellular domain of AMPA receptor subunits are reported as the modulators of AMPA receptor subunit transfer. In the motoneuron of sporadic amyotrophic lateral sclerosis (ALS) patients, the efficiency of RNA editing at the GluR2 Q/R site is significantly decreased. Relative low level of edited GluR2 subunit expression is likely responsible for motoneuronal death in ALS. Recently, AMPA receptors in glial cells have been studied. Bergmann glial cells in cerebellum express Ca(2+)-permeable AMPA receptors. Conversion of these AMPA receptors to Ca(2+)-impermeable type receptors induces morphological and functional changes. Glioblastoma cells also express Ca(2+)-permeable AMPA receptors, and their conversion to Ca(2+)-impermeable receptors inhibits cell locomotion and induces apoptosis.
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PMID:Recent advances in the study of AMPA receptors. 1463 6

We report the clinical and neuropathological features of a Japanese family with familial amyotrophic lateral sclerosis (FALS), whose members have an amino acid substitution of histidine by arginine in Cu/Zn superoxide dismutase. A 58-year-old woman developed muscle weakness in the legs, and died of respiratory insufficiency 7 months after the onset of her weakness. Her family history included 7 patients with FALS over 3 generations. Their pertinent neurological abnormalities consisted primarily of lower motor neuron signs, and their clinical progression was rapid. Autopsy of our patient showed the involvement of the lower and upper motor neuron systems with Lewy body-like hyaline inclusions, in addition to degeneration in the posterior columns, Clarke's nuclei and posterior spinocerebellar tracts. The inclusions reacted with both anti-SOD1 and anti-ubiquitin antibodies. This is the first report of the neuropathological findings of FALS with this mutation.
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PMID:[Clinical features and neuropathological findings of familial amyotrophic lateral sclerosis with an H43R mutation in Cu/Zn superoxide dismutase]. 1465 2

The aetiology of sporadic amyotrophic lateral sclerosis (ALS), a fatal paralytic disease, is largely unknown. Here we show that there is a defect in the editing of the messenger RNA encoding the GluR2 subunit of glutamate AMPA receptors in the spinal motor neurons of individuals affected by ALS. This failure to swap an arginine for a glutamine residue at a crucial site in the subunit, which occurs normally in the affected brain areas of patients with other neurodegenerative diseases, will interfere with the correct functioning of the glutamate receptors and may be a contributory cause of neuronal death in ALS patients.
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PMID:Glutamate receptors: RNA editing and death of motor neurons. 1498 49

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