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)

Sera from 26% of patients with sporadic amyotrophic lateral sclerosis (ALS) induced in vitro apoptosis of a human neuroblastoma cell line, as detected by two methods, and most contained anti-Fas autoantibodies. In contrast, Alzheimer sera (studied as controls) very rarely induced apoptosis and did not contain detectable anti-Fas antibodies. Soluble Fas-ligand levels in ALS sera were not different from those in normal sera, except for slightly higher levels in a single case. In mixed cultures of rat embryonic brain and spinal cord cells, ALS sera (and agonistic anti-Fas monoclonal antibodies and soluble Fas-ligand) induced the apoptosis of a subpopulation of neurons. These neurons were motoneurons on the basis of staining with the monoclonal antibody SMI 32 and Fas expression was restricted to these SMI 32-positive neurons. These data are compatible with the hypothesis of the participation of an autoimmune mechanism possibly related to anti-Fas autoantibodies in certain ALS patients.
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PMID:In vitro induction of neuronal apoptosis by anti-Fas antibody-containing sera from amyotrophic lateral sclerosis patients. 1099 23

Neuronal death is normal during nervous system development but is abnormal in brain and spinal cord disease and injury. Apoptosis and necrosis are types of cell death. They are generally considered to be distinct forms of cell death. The re-emergence of apoptosis may contribute to the neuronal degeneration in chronic neurodegenerative disease, such as amyotrophic lateral sclerosis and Alzheimer's disease, and in neurological injury such as cerebral ischemia and trauma. There is also mounting evidence supporting an apoptosis-necrosis cell death continuum. In this continuum, neuronal death can result from varying contributions of coexisting apoptotic and necrotic mechanisms; thus, some of the distinctions between apoptosis and necrosis are becoming blurred. Cell culture and animal model systems are revealing the mechanisms of cell death. Necrosis can result from acute oxidative stress. Apoptosis can be induced by cell surface receptor engagement, growth factor withdrawal, and DNA damage. Several families of proteins and specific biochemical signal-transduction pathways regulate cell death. Cell death signaling can involve plasma membrane death receptors, mitochondrial death proteins, proteases, kinases, and transcription factors. Players in the cell death and cell survival orchestra include Fas receptor, Bcl-2 and Bax (and their homologues), cytochrome c, caspases, p53, and extracellular signal-regulated protein kinases. Some forms of cell death require gene activation, RNA synthesis, and protein synthesis, whereas others forms are transcriptionally-translationally-independent and are driven by posttranslational mechanisms such as protein phosphorylation and protein translocation. A better understanding of the molecular mechanisms of neuronal cell death in nervous system development, injury and disease can lead to new therapeutic approaches for the prevention of neurodegeneration and neurological disabilities and will expand the field of cell death biology.
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PMID:Neuronal cell death in nervous system development, disease, and injury (Review). 1129 6

To investigate disease-related differences of cell death and apoptosis in human denervation atrophy, we studied DNA fragmentation by the terminal deoxynucleotidyltransferase-mediated dUTP-biotin nick end labeling (TUNEL) method in 38 biopsies of clinically nonaffected and affected muscles from patients with sporadic amyotrophic lateral sclerosis (sALS), in 13 muscle biopsies from patients with chronic peripheral neuropathies, and in 8 biopsies from control subjects. In addition, expression of apoptosis-related proteins, bax, bcl-2, and Fas, was studied in 20 biopsies of sALS and 10 chronic peripheral neuropathies. We identified DNA cleavage in 10% of myofibers of patients and in up to 1.5% of control samples. In clinically affected muscles of ALS, a larger amount of TUNEL-positive myofibers (mean 10.5 +/- 5.9%) was detected, similar to chronic peripheral neuropathies (mean 10.0 +/- 7.4%). Atrophic myofibers were immunopositive for bax, bcl-2, and, to a weaker extent, for Fas. However, bax-, bcl-2-, or Fas-positive atrophic myofibers did not reveal consecutive DNA cleavage. Differences between sALS subgroups and chronic peripheral neuropathies were not found. In human denervation atrophy the bcl-2/bax and the FasL/Fas systems are apparently active independently of DNA fragmentation and apoptosis. DNA fragmentation thus displays an additional reaction that is not disease-specific at chronic stages of human denervation processes, probably recapitulating events like skeletal muscle fiber remodeling in embryonic skeletal tissue development.
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PMID:Cell death and apoptosis-related proteins in muscle biopsies of sporadic amyotrophic lateral sclerosis and polyneuropathy. 1143 85

Amyotrophic lateral sclerosis (ALS) is a progressive neurodegenerative disease primarily affecting the upper and lower motor neurones of the central nervous system. Recently, a lot of interest has been generated by the possibility that a mechanism of programmed cell death, termed apoptosis, is responsible for the motor neurone degeneration in this condition. Apoptosis is regulated through a variety of different pathways which interact and eventually lead to controlled cell death. Apart from genetic regulation, factors involved in the control of apoptosis include death receptors, caspases, Bcl-2 family of oncoproteins, inhibitor of apoptosis proteins (IAPs), inhibitors of IAPs, the p53 tumour suppressor protein and apoptosis-related molecules. The first part of this article will give an overview of the current knowledge of apoptosis. In the second part of this review, we will examine in detail the evidence for and against the contribution of apoptosis in motor neurone cell death in ALS, looking at cellular-, animal- and human post-mortem tissue-based models. In a chronic neurodegenerative disease such as ALS, conclusive evidence of apoptosis is likely to be difficult to detect, given the rapidity of the apoptotic cell death process in relation to the relatively slow time course of the disease. Although a complete picture of motor neurone death in ALS has not been fully elucidated, there is good and compelling evidence that a programmed cell death pathway operates in this disorder. The strongest body of evidence supporting this comes from the findings that, in ALS, changes in the levels of members of the Bcl-2 family of oncoproteins results in a predisposition towards apoptosis, there is increased expression or activation of caspases-1 and -3, and the dying motor neurones in human cases exhibit morphological features reminiscent of apoptosis. Further supporting evidence comes from the detection of apoptosis-related molecules and anti-Fas receptor antibodies in human cases of ALS. However, the role of the p53 protein in cell death in ALS is at present unclear. An understanding of the mechanism of programmed cell death in ALS may provide important clues for areas of potential therapeutic intervention for neuroprotection in this devastating condition.
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PMID:Apoptosis in amyotrophic lateral sclerosis: a review of the evidence. 1153 57

Prostaglandin D(2) (PGD(2)), a major cyclooxygenase product in a variety of tissues and cells, readily undergoes dehydration to yield the bioactive cyclopentenone-type PGs of the J(2)-series, such as 15-deoxy-Delta(12,14)-PGJ(2) (15d-PGJ(2)). The observation that the level of 15d-PGJ(2) increased in the tissue cells from patients with sporadic amyotrophic lateral sclerosis suggested that the formation of 15d-PGJ(2) may be closely associated with neuronal cell death during chronic inflammatory processes. In vitro experiments using SH-SY5Y human neuroblastoma cells revealed that 15d-PGJ(2) induced apoptotic cell death. An oligonucleotide microarray analysis demonstrated that, in addition to the heat shock-responsive and redox-responsive genes, the p53-responsive genes, such as gadd45, cyclin G1, and cathepsin D, were significantly up-regulated in the cells treated with 15d-PGJ(2). Indeed, the 15d-PGJ(2) induced accumulation and phosphorylation of p53, which was accompanied by a preferential redistribution of the p53 protein in the nuclei of the cells and by a time-dependent increase in p53 DNA binding activity, suggesting that p53 accumulated in response to the treatment with 15d-PGJ(2) was functional. The 15d-PGJ(2)-induced accumulation of p53 resulted in the activation of a death-inducing caspase cascade mediated by Fas and the Fas ligand.
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PMID:15-Deoxy-Delta(12,14)-prostaglandin J(2): the endogenous electrophile that induces neuronal apoptosis. 1203 89

The molecular basis of the selective death of motor neurons in amyotrophic lateral sclerosis (ALS) has been an enigma since its description by Charcot in 1869. In this issue of Neuron, demonstrate a motor neuron-specific death pathway which involves Fas and NO. Remarkably, motor neurons from mice carrying ALS-linked mutant forms of superoxide dismutase 1 (SOD1) exhibit an increased sensitivity to death triggered by Fas but not other insults. These data suggest new insights into the mechanisms of, and potential therapeutic strategies for, death of motor neurons in ALS.
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PMID:Fas(t) balls and Lou Gehrig disease. A clue to selective vulnerability of motor neurons? 1235 97

Death pathways restricted to specific neuronal classes could potentially allow for precise control of developmental neuronal death and also underlie the selectivity of neuronal loss in neurodegenerative disease. We show that Fas-triggered death of normal embryonic motoneurons requires transcriptional upregulation of neuronal NOS and involves Daxx, ASK1, and p38 together with the classical FADD/caspase-8 cascade. No evidence for involvement of this pathway was found in cells other than motoneurons. Motoneurons from transgenic mice overexpressing ALS-linked SOD1 mutants (G37R, G85R, or G93A) displayed increased susceptibility to activation of this pathway: they were more sensitive to Fas- or NO-triggered cell death but not to trophic deprivation or excitotoxic stimulation. Thus, triggering of a motoneuron-restricted cell death pathway by neighboring cells might contribute to motoneuron loss in ALS.
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PMID:Motoneuron death triggered by a specific pathway downstream of Fas. potentiation by ALS-linked SOD1 mutations. 1235 90

In this study, the levels of anti-Fas antibodies were evaluated in patients with amyotrophic lateral sclerosis (ALS) and other neurodegenerative diseases. Sera from 25% of patients with sporadic ALS (sALS) and 22% of patients with familial ALS (fALS) contained abnormal levels of anti-Fas antibodies compared with normal controls. Half of patients with Parkinson's disease (PD), but no patients with Alzheimer's disease (AD), had abnormal levels of anti-Fas antibodies. There was no correlation between the antibody levels of patients with ALS and the length or stage of their disease. These data demonstrate that the peripheral immune system is activated as reflected by anti-Fas antibodies in ALS, but this activation is not specific to ALS.
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PMID:Serum anti-Fas antibody levels in amyotrophic lateral sclerosis. 1451 72

The identification of the pathogenic mechanism of selective motor neuron (MN) death in amyotrophic lateral sclerosis (ALS) may lead to the development of new therapies to halt or slow the disease course. A novel, MN-specific, Fas-mediated programmed cell death (PCD) pathway has been reported in MNs which involves the activation of p38 MAP kinase (phospho-p38) and neuronal nitric oxide synthase (nNOS). PCD was found to be exacerbated in MNs expressing ALS-linked superoxide dismutase (SOD) mutations. Because this MN-specific pathway was investigated in vitro, we performed an in vivo study to evaluate its potential involvement in MN loss in the lumbar region of spinal cord of mutant SOD transgenic (G93A) mice. Compared to nontransgenic littermates, we found significant increases in the numbers of immunopositive ventral horn MNs of G93A mice as young as 60 days of age for several constituents of this putative PCD pathway, including phospho-p38, nNOS, phospho-ASK1 MAP kinase kinase, and active caspase-3. This study provides in vivo evidence of an MN-specific PCD pathway that may be a pathogenic mechanism of ALS and may be activated very early in the disease process, well before clinical symptoms are evident (200 days). These findings suggest that early diagnosis and therapeutic intervention may be critical for the successful treatment of the disease. These enzymes may provide new markers for earlier diagnosis of ALS and new molecular targets for therapeutic intervention.
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PMID:Activation of programmed cell death markers in ventral horn motor neurons during early presymptomatic stages of amyotrophic lateral sclerosis in a transgenic mouse model. 1549 59

A strong glial reaction typically surrounds the affected upper and lower motor neurons and degenerating descending tracts of ALS patients. Reactive astrocytes in ALS contain protein inclusions, express inflammatory makers such as the inducible forms of nitric oxide synthase (iNOS) and cyclooxygenase (COX-2), display nitrotyrosine immunoreactivity and downregulate the glutamate transporter EAAT2. In this review, we discuss the evidence sustaining an active role for astrocytes in the induction and propagation of motor neuron loss in ALS. Available evidence supports the view that glial activation could be initiated by proinflammatory mediators secreted by motor neurons in response to injury, axotomy or muscular pathology. In turn, reactive astrocytes produce nitric oxide and peroxynitrite, which cause mitochondrial damage in cultured neurons and trigger apoptosis in motor neurons. Astrocytes may also contribute to the excitotoxic damage of motor neurons by decreasing glutamate transport or actively releasing the excitotoxic amino acid. In addition, reactive astrocytes secrete pro-apoptotic mediators, such as nerve growth factor (NGF) or Fas-ligand, a mechanism that may serve to eliminate vulnerable motor neurons. The comprehensive understanding of the interactions between motor neurons and glia in ALS may lead to a more accurate theory of the pathogenesis of the disease.
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PMID:A role for astrocytes in motor neuron loss in amyotrophic lateral sclerosis. 1557 76

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