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)

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

Our objective was to investigate the association between senataxin mutations and sporadic amyotrophic lateral sclerosis (ALS) in Chinese patients. DNA from 45 sporadic ALS patients was screened for mutations in senataxin using polymerase chain reaction (PCR) and direct sequencing. A novel variation, Thr1118Ile, was identified in a 42-year-old individual with sporadic ALS. This variation was not detected in 200 unrelated control individuals. In conclusion, the presence of this variation in a patient with sporadic ALS, and its absence in 200 controls, supports an association between senataxin and sporadic ALS. This study has broadened the mutation spectrum of senataxin and expanded the clinical phenotypes of senataxin mutations.
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PMID:A novel mutation in the senataxin gene identified in a Chinese patient with sporadic amyotrophic lateral sclerosis. 1905 54

A K17I mutation in the ANG gene encoding angiogenin has been identified in a case that we previously published as ALS with neuronal intranuclear protein inclusions (Seilhean et al. in Acta Neuropathol 108:81-87, 2004). These inclusions were immunoreactive for smooth muscle alpha-actin but not for angiogenin. Moreover, they were not labeled by anti-TDP-43 antibodies, while numerous cytoplasmic inclusions immunoreactive for ubiquitin, p62 and TDP-43 were detected in both oligodendrocytes and neurons in various regions of the central nervous system. In addition, expression of smooth muscle alpha-actin was increased in the liver where severe steatosis was observed. This is the first neuropathological description of a case with an ANG mutation. Angiogenin is known to interact with actin. Like other proteins involved in ALS pathogenesis, such as senataxin, TDP-43 and FUS/TLS, it plays a role in RNA maturation.
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PMID:Accumulation of TDP-43 and alpha-actin in an amyotrophic lateral sclerosis patient with the K17I ANG mutation. 1944 21

In this review, the role of aberrant RNA metabolism in ALS is examined, including the evidence that a majority of the genetic mutations observed in familial ALS (including mutations in TDP-43, FUS/TLS, SOD1, angiogenin (ANG) and senataxin (SETX)) can impact directly on either gene transcription, pre-mRNA splicing, ribonucleoprotein complex formation, transport, RNA translation or degradation. The evidence that perturbed expression or function of RNA binding proteins is causally related to the selective suppression of the low molecular weight subunit protein (NFL) steady state mRNA levels in degenerating motor neurons in ALS is examined. The discovery that mtSOD1, TDP-43 and 14-3-3 proteins, all of which form cytosolic aggregates in ALS, can each modulate the stability of NFL mRNA, suggests that a fundamental alteration in the interaction of mRNA species with key trans-acting binding factors has occurred in ALS. These observations lead directly to the hypothesis that ALS can be viewed as a disorder of RNA metabolism, thus providing a novel pathway for the development of molecular pharmacotherapies.
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PMID:The evidence for altered RNA metabolism in amyotrophic lateral sclerosis (ALS). 1984 Aug 84

The Saccharomyces cerevisiae SEN1 gene codes for a nuclear-localized superfamily I helicase. SEN1 is an ortholog of human SETX (senataxin), which has been implicated in the neurological disorders ataxia-ocular apraxia type 2 and juvenile amyotrophic lateral sclerosis. Pleiotropic phenotypes conferred by sen1 mutations suggest that Sen1p affects multiple steps in gene expression. Sen1p is embedded in a protein-protein interaction network involving direct binding to multiple partners. To test whether the interactions occur independently or in a dependent sequence, we examined interactions with the RNA polymerase II subunit Rpb1p, which is required for transcription, and Rnt1p, which is required for 3'-end maturation of many noncoding RNAs. Mutations were identified that impair one of the two interactions without impairing the other interaction. The effects of the mutants on the synthesis of U5 small nuclear RNA were analyzed. Two defects were observed, one in transcription termination and one in 3'-end maturation. Impairment of the Sen1p-Rpb1p interaction resulted in a termination defect. Impairment of the Sen1p-Rnt1p interaction resulted in a processing defect. The results suggest that the Sen1p-Rpb1p and Sen1p-Rnt1p interactions occur independently of each other and serve genetically separable purposes in targeting Sen1p to function in two temporally overlapping steps in gene expression.
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PMID:Sen1p performs two genetically separable functions in transcription and processing of U5 small nuclear RNA in Saccharomyces cerevisiae. 1988 10

For the vast majority of cases of amyotrophic lateral sclerosis (ALS) the etiology remains unknown. After the discovery of missense mutations in the gene coding for the Cu/Zn superoxide dismutase 1 (SOD1) in subsets of familial ALS, several transgenic mouse lines have been generated with various forms of SOD1 mutants overexpressed at different levels. Studies with these mice yielded complex results with multiple targets of damage in disease including mitochondria, proteasomes, and secretory pathways. Many unexpected discoveries were made. For instance, the toxicity of mutant SOD1 seems unrelated to copper-mediated catalysis but rather to formation of misfolded SOD1 species and aggregates. Transgenic studies revealed a potential role of wtSOD1 in exacerbating mutant SOD1-mediated disease. Another key finding came from chimeric mouse studies and from Cre-lox mediated gene deletion experiments which have highlighted the importance of non-neuronal cells in the disease progression. Involvement of cytoskeletal components in ALS pathogenesis is supported by several mouse models of motor neuron disease with neurofilament abnormalities and with genetic defects in microtubule-based transport. Recently, the generation of new animal models of ALS has been made possible with the discovery of ALS-linked mutations in other genes encoding for alsin, dynactin, senataxin, VAPB, TDP-43 and FUS. Following the discovery of mutations in the TARDBP gene linked to ALS, there have been some reports of transgenic mice with high level overexpression of WT or mutant forms of TDP-43 under strong gene promoters. However, these TDP-43 transgenic mice do not exhibit all pathological features the human ALS disease. Here, we will describe these new TDP-43 transgenic mice and discuss their validity as animal models of human ALS.
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PMID:ALS pathogenesis: recent insights from genetics and mouse models. 2072 92

We studied three patients with mutations in the senataxin gene (SETX). One had juvenile onset of ALS. The second case resembled hereditary motor neuropathy. The third patient had an overlap syndrome of ataxia-tremor and motor neuron disease, phenotypes previously associated with SETX mutations. Our patients were all apparently sporadic, with no other affected relative. Two relatives of patient no. 2 carried the SETX c.4660T > G transversion but did not manifest motor neuron disease, abnormal eye movements, ataxia, or tremor suggesting that genetic or environmental modifiers may influence expression of this SETX polymorphism. Relatives of patients 1 and 3 were not available for examination or SETX mutation screening. Mutations causing ALS4 may be more frequent and heterogeneous than expected. Screening for SETX mutations should be considered in patients with apparently sporadic juvenile-onset ALS, hereditary motor neuropathy, and overlap syndromes with ataxia and motor neuron disease.
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PMID:Senataxin mutations and amyotrophic lateral sclerosis. 2119 Mar 93

Amyotrophic lateral sclerosis (ALS) is a neurodegenerative disease characterized by progressive muscle weakness that reflects degeneration of motor neurons in the primary motor cortex, corticospinal tracts, brainstem, and spinal cord. Most ALS cases are sporadic, but about 5%-10% are familial. The majority of familial ALS (FALS) cases follow an autosomal dominant inheritance pattern, and include the following mutations: ALS1, Cu/Zn superoxide dismutase (SOD1); ALS3; ALS4, senataxin; ALS6, fused in sarcoma (FUS); ALS7; ALS8, vesicle-associated membrane protein; ALS9, angiogenin; ALS10, TAR DNA-binding protein (TARDBP); and ALS11/FIG4. Some of these gene mutations are rarely seen in sporadic ALS cases. ALS2/alsin and ALS5 show an autosomal recessive inheritance pattern. Recently, mutations in the gene encoding optineurin, earlier reported to be a causative gene for primary open-angle glaucoma, have also been found in patients with ALS. It has also been demonstrated that a mutation in the D-amino acid oxidase gene is associated with classic adult-onset FALS. However, these genetic defects occur in only about 20%-30% FLAS cases, while most genes causing FALS remain unknown.
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PMID:[Gene mutations in familial amyotrophic lateral sclerosis]. 2130 Oct 41

Senataxin is encoded by the SETX gene and is mainly involved in two different neurodegenerative diseases, the dominant juvenile form of amyotrophic lateral sclerosis type 4 and a recessive form of ataxia with oculomotor apraxia type 2. Based on protein homology, senataxin is predicted to be a putative DNA/RNA helicase, while senataxin interactors from patients' lymphoblast cell lines suggest a possible involvement of the protein in different aspects of RNA metabolism. Except for an increased sensitivity to oxidative DNA damaging agents shown by some ataxia with neuropathy patients' cell lines, no data are available about possible functional consequences of dominant SETX mutations and no studies address the function of senataxin in neurons. To start elucidating the physiological role of senataxin in neurons and how disease-causing mutations in this protein lead to neurodegeneration, we analysed the effect of senataxin on neuronal differentiation in primary hippocampal neurons and retinoic acid-treated P19 cells by modulating the expression levels of wild-type senataxin and three different dominant mutant forms of the protein. Wild-type senataxin overexpression was required and sufficient to trigger neuritogenesis and protect cells from apoptosis during differentiation. These actions were reversed by silencing of senataxin. In contrast, overexpression of the dominant mutant forms did not affect the regular differentiation process in primary hippocampal neurons. Analysis of the cellular pathways leading to neuritogenesis and cytoprotection revealed a role of senataxin in modulating the expression levels and signalling activity of fibroblast growth factor 8. Silencing of senataxin reduced, while overexpression enhanced, fibroblast growth factor 8 expression levels and the phosphorylation of related target kinases and effector proteins. The effects of senataxin overexpression were prevented when fibroblast growth factor 8 signalling was inhibited, while exogenous fibroblast growth factor 8 reversed the effects of senataxin silencing. Overall, these results reveal a key role of senataxin in neuronal differentiation through the fibroblast growth factor 8 signalling and provide initial molecular bases to explain the neurodegeneration associated with loss-of-function mutations in senataxin found in recessive ataxia. The lack of effect on neuritogenesis observed with the overexpression of the dominant mutant forms of senataxin apparently excludes a dominant negative effect of these mutants while favouring haploinsufficiency as the pathogenic mechanism implicated in the amyotrophic lateral sclerosis 4-related degenerative condition. Alternatively, a different protein function, other than the one involved in neuritogenesis, may be implicated in these dominant degenerative processes.
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PMID:Senataxin modulates neurite growth through fibroblast growth factor 8 signalling. 2157 11

Mutations in the senataxin (SETX) gene can cause amyotrophic lateral sclerosis 4 (ALS4), an autosomal dominant form of juvenile onset amyotrophic lateral sclerosis, or result in autosomal recessive ataxia with oculomotor apraxia type 2. Great caution regarding the possible disease causation, especially of missense variations, has to be taken. Here, we evaluated the significance of all previously reported SETX missense mutations as well as six newly identified variations in 54 patients suspected of having ALS4. Yet, epidemiologic and in silico evidence indicates that all newly identified variations and two previously published ALS4-related missense variations (C1554G and I2547T) are most likely non-pathogenic, demonstrating the problems of interpretation of SETX missense alleles in the absence of functional assays.
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PMID:The SETX missense variation spectrum as evaluated in patients with ALS4-like motor neuron diseases. 2312 21

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