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)

In amyotrophic lateral sclerosis (ALS) it is not known which motoneuron is affected first. The study of synaptic proteins may contribute to the clarification of the problem. Fifteen cases of ALS and five control cases were studied with the immunohistochemical demonstration of synaptophysin (Sy) and chromogranin A (CgA). Sy is a typical membrane protein of small synaptic vesicles (SSV), whereas CgA is found in large dense core vesicles (LDCV) and in neurosecretory granules. In controls, Sy is distributed as dots on the neuronal surface, on proximal dendrites and in neuropil, whereas CgA is found in perikarya and dendrites and as puncta in the neuropil. In ALS there is a marked decrease of Sy-positive dots. In chromatolytic neurons and spheroids a diffuse reaction may occur. CgA-positive dots disappear in ALS, sometimes replaced by a dust-like positivity. CgA is produced by Golgi apparatus and its reduction in ALS corresponds to the fragmentation of the Golgi complex, described in the literature. The findings are interpreted as secondary to the lower motoneuron degeneration and discussed in relation to our knowledge on vesicle production and migration in the neuron and on synapses in the anterior horns of spinal cord.
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PMID:Synaptic vesicle proteins, synaptophysin and chromogranin A in amyotrophic lateral sclerosis. 759 26

The importance of the Golgi apparatus in the transport, processing, and targeting of proteins destined for secretion, plasma membranes, and lysosomes has emerged from numerous studies. In this paper we review studies from our laboratory dealing with 1) the Golgi apparatus during mitosis and the role of microtubules in maintaining the structure of the organelle, 2) the endocytosis of antibodies, exogenous lectins, and toxins into the Golgi apparatus of several cells including neurons in vivo and in vitro, 3) the traffic of MG-160, a membrane sialoglycoprotein of the medial cisternae of the Golgi apparatus, from the trans-Golgi network to the Golgi cisternae, and 4) the involvement of the Golgi apparatus of motor neurons in the pathogenesis of amyotrophic lateral sclerosis. We conclude with a summary of ongoing work on the primary structure of MG-160 and introduce evidence suggesting that this intrinsic membrane protein of the Golgi apparatus may be involved in the regulation of endogenous, autocrine, basic fibroblast growth factor. We hope that this review will stimulate studies on the Golgi apparatus of neurons, which may lead to the discovery of neuron-specific properties of this important organelle and its involvement in the pathogenesis of neurodegenerative disorders.
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PMID:Rous-Whipple Award Lecture. Contributions to the physiology and pathology of the Golgi apparatus. 794 66

Oxidative stress may be a hallmark of several neurodegenerative disorders, including Alzheimer's disease (AD) Huntington's, and Parkinson's diseases as well as amyotrophic lateral sclerosis. Acrolein is a highly reactive product of lipid peroxidation that is elevated in the brains of persons with AD. This alkenal potentially can react with proteins by Michael addition to alter their structure and function. In the present study, we used electron paramagnetic resonance in conjunction with a protein-specific spin label to monitor synaptosomal membrane protein conformational alterations induced by acrolein. A dose-dependent increased conformational alteration was observed. Consistent with this finding, protein carbonyl levels from protein-bound acrolein were significantly elevated. However, pretreatment of synaptosomes with glutathione ethyl ester (GEE) significantly ameliorated both the conformational alterations and protein carbonyls induced by acrolein. Based on this success, we tested the hypothesis that elevated levels of endogenous glutathione (GSH) would offer protection against acrolein-induced oxidative stress. In-vivo elevation of GSH (215% over control, P<0.04) was produced by i.p. injection of N-acetylcysteine (NAC), a known precursor of GSH. Synaptosomes were treated with vehicle or 2 nM acrolein, the level of this alkenal found in AD brain. In contrast to synaptosomes from control animals, which had significantly increased protein carbonyl levels following addition of 2 nM acrolein, synaptosomes that were isolated from NAC-treated rodents and treated with 2 nM acrolein showed no increased carbonyl levels compared to untreated controls. These results demonstrate protection by increased in-vivo GSH levels against acrolein-induced oxidative stress at levels found in AD brain and are consistent with the notion that methods to increase endogenous GSH levels in neurodegenerative diseases associated with oxidative stress may be promising.
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PMID:Glutathione elevation and its protective role in acrolein-induced protein damage in synaptosomal membranes: relevance to brain lipid peroxidation in neurodegenerative disease. 1140 93

3,3'-Iminodipropionitrile (IDPN) is a neurotoxic compound that causes both a proximal neurofilamentous axonopathy and loss of the vestibular sensory hair cells. We used immunocytochemistry to examine changes in the expression of heavy, medium and light neurofilament (NF-H, NF-M, NF-L) proteins in the afferent terminals of vestibular sensory epithelia after IDPN exposure in rats. Acute, repeated and subchronic IDPN exposure induced a marked loss of NFs in the nerve terminals. The effect of subchronic IDPN was specific, as demonstrated by comparison with the synaptic membrane protein SNAP-25. In addition, Western blot analysis indicated specific loss of NFs in the vestibular receptors. Ultrastructural analysis revealed that afferent endings in the vestibular receptors were significantly preserved in animals exposed to subchronic IDPN, but that these endings showed NF segregation from microtubules followed by NF loss. These effects were closely paralleled by ultrastructural changes in the nerve terminals, particularly in the afferent contacts with the hair cells, and preceded hair cell loss. Thus, distal NF loss and nerve terminal pathology occur in the IDPN model of proximal neurofilamentous axonopathy. Similar distal pathology could also occur in human diseases characterized by proximal axonal swellings, particularly in amyotrophic lateral sclerosis.
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PMID:Distal effects in a model of proximal axonopathy: 3,3'-iminodipropionitrile causes specific loss of neurofilaments in rat vestibular afferent endings. 1289 57

Although large amounts of wild-type human Cu,Zn superoxide dismutase (SOD) are easily expressed in Escherichia coli, the amyotrophic lateral sclerosis-associated mutants have a strong propensity to aggregate into inclusion bodies. The alanine to valine mutation at the fourth codon (A4V) is responsible for a rapidly progressive disease course and is particularly prone to aggregation when expressed in E. coli. We found that A4V SOD remained soluble when expressed at 18 degrees C, but >95% A4V SOD aggregated in inclusion bodies when expressed at 23 degrees C or above. The SOD aggregates dissolved with 4 M urea, suggesting that intermolecular hydrophobic interactions were predominantly responsible for making SOD insoluble. Many of the urea-solubilized subunits were cross-linked via disulfide bridges. Fully active mutant SOD could be produced by dialyzing urea away in the presence of beta-mercaptoethanol and subsequently adding copper plus zinc, providing a fast procedure for purifying hundreds of milligrams of protein. Extensive rinsing removed most contaminating E. coli proteins from A4V SOD inclusion bodies except for a 37 kDa protein identified as outer membrane protein F using MALDI ToF/ToF mass spectrometry. Our results indicate that metal-deficient ALS-mutant SOD folds into stable apo conformation able to rebind metals. At high protein concentrations, SOD forms aggregates through hydrophobic interactions between subunits that seem to act as a kinetic snare to entrap additional proteins.
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PMID:Aggregation of ALS mutant superoxide dismutase expressed in Escherichia coli. 1501 75

Motor neuron diseases (MNDs) are a group of neurodegenerative disorders with involvement of upper and/or lower motor neurons, such as amyotrophic lateral sclerosis (ALS), spinal muscular atrophy (SMA), progressive bulbar palsy, and primary lateral sclerosis. Recently, we have mapped a new locus for an atypical form of ALS/MND (atypical amyotrophic lateral sclerosis [ALS8]) at 20q13.3 in a large white Brazilian family. Here, we report the finding of a novel missense mutation in the vesicle-associated membrane protein/synaptobrevin-associated membrane protein B (VAPB) gene in patients from this family. Subsequently, the same mutation was identified in patients from six additional kindreds but with different clinical courses, such as ALS8, late-onset SMA, and typical severe ALS with rapid progression. Although it was not possible to link all these families, haplotype analysis suggests a founder effect. Members of the vesicle-associated proteins are intracellular membrane proteins that can associate with microtubules and that have been shown to have a function in membrane transport. These data suggest that clinically variable MNDs may be caused by a dysfunction in intracellular membrane trafficking.
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PMID:A mutation in the vesicle-trafficking protein VAPB causes late-onset spinal muscular atrophy and amyotrophic lateral sclerosis. 1537 78

Mutations in the Cu/Zn superoxide dismutase (Sod1) gene have been reported to cause adult-onset autosomal dominant Amyotrophic Lateral Sclerosis (FALS). In sporadic cases (SALS) de novo mutations in the Sod1 gene have occasionally been observed. The recent finding of a mutation in the VAMP/synaptobrevin-associated membrane protein B (VAPB) gene as the cause of amyotrophic lateral sclerosis (ALS8), prompted us to investigate the entire coding region of this gene in SALS patients. One hundred twenty-five unrelated patients with adult-onset ALS and 150 healthy sex-age-matched subjects with the same genetic background were analyzed. Genetic analysis for all exons of the VAPB gene by DHPLC revealed 5 variant profiles in 83 out of 125 SALS patients. Direct sequencing of these PCR products revealed 3 nucleotide substitutions. Two of these were found within intron 3 of the gene, harbouring 4 variant DHPLC profiles. The third nucleotide variation (Asp130Glu) was the only substitution present in the coding region of the VAPB gene, and it occurred within exon 4. It was found in three patients out of 125. The frequency of the detected exon variation in the VAPB gene was not significantly different between patients and controls. In conclusion, our study suggests that VAPB mutations are not a common cause of adult-onset SALS.
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PMID:Sporadic ALS is not associated with VAPB gene mutations in Southern Italy. 1672 99

The vesicle-associated membrane protein-associated proteins (VAPs) VAPA and VAPB interact with lipid-binding proteins carrying a short motif containing two phenylalanines in an acidic tract (FFAT motif) and targets them to the cytosolic surface of the endoplasmic reticulum (ER). A genetic mutation (P56S) in the conserved major sperm protein homology domain of VAPB has been linked to motor-neuron degeneration in affected amyotrophic lateral sclerosis (ALS) patients. We report that in the CNS, VAPB is abundant in motor neurons and that the P56S substitution causes aggregation of mutant VAPB in immobile tubular ER clusters, perturbs FFAT-motif binding, and traps endogenous VAP in mutant aggregates. Expression of mutant VAPB or reduction of VAP by short hairpin RNA in primary neurons causes Golgi dispersion and cell death. VAPA and VAPB are reduced in human ALS patients and superoxide dismutase 1 (SOD1)-ALS-transgenic mice, suggesting that VAP family proteins may be involved in the pathogenesis of sporadic and SOD1-linked ALS. Our data support a model in which reduced levels of VAP family proteins result in decreased ER anchoring of lipid-binding proteins and cause motor neuron degeneration.
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PMID:Motor neuron disease-associated mutant vesicle-associated membrane protein-associated protein (VAP) B recruits wild-type VAPs into endoplasmic reticulum-derived tubular aggregates. 1780 40

ALS8 is caused by a dominant mutation in an evolutionarily conserved protein, VAPB (vesicle-associated membrane protein (VAMP)-associated membrane protein B)/ALS8). We have established a fly model of ALS8 using the corresponding mutation in Drosophila VAPB (dVAP33A) and examined the effects of this mutation on VAP function using genetic and morphological analyses. By simultaneously assessing the effects of VAP(wt) and VAP(P58S) on synaptic morphology and structure, we demonstrate that the phenotypes produced by neuronal expression of VAP(P58S) resemble VAP loss of function mutants and are opposite those of VAP overexpression, suggesting that VAP(P58S) may function as a dominant negative. This is brought about by aggregation of VAP(P58S) and recruitment of wild type VAP into these aggregates. Importantly, we also demonstrate that the ALS8 mutation in dVAP33A interferes with BMP signaling pathways at the neuromuscular junction, identifying a new mechanism underlying pathogenesis of ALS8. Furthermore, we show that mutant dVAP33A can serve as a powerful tool to identify genetic modifiers of VAPB. This new fly model of ALS, with its robust pathological phenotypes, should for the first time allow the power of unbiased screens in Drosophila to be applied to study of motor neuron diseases.
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PMID:A Drosophila model of ALS: human ALS-associated mutation in VAP33A suggests a dominant negative mechanism. 1852 48

The aim of this study was to quantify spinal cord expression of genes known to cause familial amyotrophic lateral sclerosis (FALS) or influence survival in a large cohort of sporadic cases of ALS (SALS), in order to determine their relevance to pathogenic mechanisms occurring in SALS. The expression of superoxide dismutase 1 (SOD1), vesicle associated membrane protein (VAPB), senataxin (SETX), dynactin (DCTN1), vascular endothelial growth factor (VEGF), insulin-like growth factor-1 (IGF1), the small heat shock proteins, HSPB1 and HSPB8, and three genes activated during disease progression, caspases-1 and -3 and glial fibrillary acidic protein (GFAP), were quantified. Robust changes in the expression of four genes were found, VAPB mRNA levels were decreased in the spinal cord of ALS patients compared to controls (p<0.006), whilst HSPB1, HSPB8 and caspase-1 showed significant increases (1.5-2.3-fold). Expression of VAPB mRNA and protein was predominantly localised to large motor neurones further supporting the relevance of this finding to disease progression occurring in SALS.
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PMID:Vesicle associated membrane protein B (VAPB) is decreased in ALS spinal cord. 1870 Nov 94

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