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

Mutations in the fused in sarcoma (FUS, also known as translated in liposarcoma) gene have been recently discovered to be associated with familial amyotrophic lateral sclerosis (FALS) in African, European and American populations. In a Japanese family with FALS, we found the R521C FUS mutation, which has been reported to be found in various ethnic backgrounds. The family history revealed 23 patients with FALS among 46 family members, suggesting a 100% penetrance rate. They developed muscle weakness at an average age of 35.3 years, followed by dysarthria, dysphagia, spasticity and muscle atrophy. The average age of death was 37.2 years. Neuropathological examination of the index case revealed remarkable atrophy of the brainstem tegmentum characterized by cytoplasmic basophilic inclusion bodies in the neurons of the brainstem. We screened 40 FALS families in Japan and found 4 mutations (S513P, K510E, R514S, H517P) in exon 14 and 15 of FUS. Even in Asian races, FALS with FUS mutations may have the common characteristics of early onset, rapid progress and high penetrance rate, although in patients with the S513P mutation it was late-onset. Degeneration in multiple systems and cytoplasmic basophilic inclusion bodies were found in the autopsied cases.
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PMID:FALS with FUS mutation in Japan, with early onset, rapid progress and basophilic inclusion. 2650 17

Mutations in the gene encoding fused in sarcoma (FUS) were recently identified as a novel cause of amyotrophic lateral sclerosis (ALS), emphasizing the genetic heterogeneity of ALS. We sequenced the genes encoding superoxide dismutase (SOD1), TAR DNA-binding protein 43 (TARDBP) and FUS in 99 sporadic and 17 familial ALS patients ascertained at Mayo Clinic. We identified two novel mutations in FUS in two out of 99 (2.0%) sporadic ALS patients and established the de novo occurrence of one FUS mutation. In familial patients, we identified three (17.6%) SOD1 mutations, while FUS and TARDBP mutations were excluded. The de novo FUS mutation (g.10747A>G; IVS13-2A>G) affects the splice-acceptor site of FUS intron 13 and was shown to induce skipping of FUS exon 14 leading to the C-terminal truncation of FUS (p.G466VfsX14). Subcellular localization studies showed a dramatic increase in the cytoplasmic localization of FUS and a reduction of normal nuclear expression in cells transfected with truncated compared to wild-type FUS. We further identified a novel in-frame insertion/deletion mutation in FUS exon 12 (p.S402_P411delinsGGGG) which is predicted to expand a conserved poly-glycine motif. Our findings extend the mutation spectrum in FUS leading to ALS and describe the first de novo mutation in FUS.
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PMID:De novo truncating FUS gene mutation as a cause of sporadic amyotrophic lateral sclerosis. 2023 51

Amyotrophic lateral sclerosis (ALS) and frontotemporal lobar degeneration (FTLD) are neurodegenerative diseases with clinical and pathological overlap. Landmark discoveries of mutations in the transactive response DNA-binding protein (TDP-43) and fused in sarcoma/translocated in liposarcoma (FUS/TLS) as causative of ALS and FTLD, combined with the abnormal aggregation of these proteins, have initiated a shifting paradigm for the underlying pathogenesis of multiple neurodegenerative diseases. TDP-43 and FUS/TLS are both RNA/DNA-binding proteins with striking structural and functional similarities. Their association with ALS and other neurodegenerative diseases is redirecting research efforts toward understanding the role of RNA processing regulation in neurodegeneration.
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PMID:TDP-43 and FUS/TLS: emerging roles in RNA processing and neurodegeneration. 2040 Apr 60

The presence of protein inclusions within the central nervous system is a characteristic of most neurodegenerative diseases, including amyotrophic lateral sclerosis (ALS). Aggregates may induce cell death trough several mechanisms, such as sequestration of essential cellular components, clogging of the proteasome system, and/or disruption of axonal transport. The neuropathological signature of ALS is represented by the presence of ubiquitinated inclusions immunoreactive for the protein TDP-43 in the cytoplasm of motor neurons. Recent studies demonstrated that a significant percentage of familial ALS cases are caused by pathogenic mutations in the TAR DNA binding protein and fused in sarcoma/translocated in liposarcoma genes encoding, respectively, for TDP-43 and FUS proteins. Both TDP-43 and FUS are DNA/RNA-binding proteins involved in transcriptional regulation and splicing, shuttling, maturation and transport of mRNA molecules. Mutations in the two genes seem to induce a nucleo-cytoplasmic redistribution of FUS and TDP-43, possibly promoting aggregate formation and/or disrupting their physiological nuclear functions or their interactions with specific RNA targets. Those findings collectively suggest that alterations in cellular RNA metabolism may trigger motor neuron degeneration.
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PMID:Protein aggregation and defective RNA metabolism as mechanisms for motor neuron damage. 2040 82

Amyotrophic lateral sclerosis (ALS) is a neurodegenerative disorder caused by loss of motor neurons both in the brain and spinal cord, which dramatically reduces life expectancy. ALS occurs either in familial ALS or, more frequently, in sporadic ALS forms. Several mechanisms have been postulated to underlie motor neuron death. In the present paper, starting from some of the genes related to familial ALS, we overview and discuss their potential role in modifying of the physiological clearance of altered proteins and organelles in motor neurons. Special emphasis is placed on the role of autophagy, which seems to prevail as a protein clearing system over other multienzymatic pathways such as the proteasome within motor neurons. The evidence which links an altered autophagy to the onset of motor neuron death proposes that this biochemical pathway might represent a final common mechanism underlying both inherited and sporadic forms of ALS. In light of these findings we also analyze the potential significance of a novel association between ALS, altered autophagy, and mutations of nuclear proteins such as TAR-DNA-Binding Protein 43 and fused in sarcoma/translated in liposarcoma. Such an association appears to be critical since it is now well demonstrated that all sporadic and most familiar forms of ALS are characterized by altered deposition and mislocalization of TAR-DNA-Binding Protein 43. These novel insights into the pathogenesis of ALS may lead to the identification of novel strategies to promote motor neuron survival.
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PMID:The role of autophagy: what can be learned from the genetic forms of amyotrophic lateral sclerosis. 2040 84

Amyotrophic lateral sclerosis (ALS) is a difficult disease to study as it is mostly sporadic and rapidly progressive. Identification of genes causing familial ALS (FALS) has been instrumental in advancing our understanding of ALS pathogenesis, most notably with the use of mutant superoxide dismutase 1 (SOD1) models of disease. For 15 years SOD1 models have been the backbone of ALS research, but no effective reatments have been developed. However, recent advances have been made in the genetics of ALS with the identification of mutations in TAR DNA binding protein (TDP-43) and fused in sarcoma/translocated in liposarcoma (FUS), both of which have roles in RNA-processing and gene expression. Molecular links between ALS and frontotemporal dementia (FTD) are also suggested by linkage of ALS-FTD to chromosome 9. The study of the genetics of sporadic ALS (SALS) has been less fruitful, although this may change as we enter the era of resequencing. Further important clues as to the causes of ALS will come from the identification of other gene mutations that cause FALS, variants that increase susceptibility to SALS, and genetic factors that modify the ALS phenotype.
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PMID:Neuronal death in amyotrophic lateral sclerosis (ALS): what can we learn from genetics? 2040 85

Basophilic inclusions (BIs) are the pathological feature in a subset of frontotemporal lobar degeneration (FTLD), sporadic amyotrophic lateral sclerosis (SALS) and familial ALS (FALS) cases. Mutations in the fused in sarcoma (FUS) gene have been recently identified as the cause of FALS type 6. FUS-immunoreactive (ir) inclusions are consistently found in cases of FTLD with BIs, but the association between ALS cases with BIs and FUS accumulation is still not well understood. In this study, we immunohistochemically analyzed the autopsied case of FALS with BIs using anti-FUS antibodies. The case was a 42-year-old woman who developed proximal weakness of the bilateral upper limbs, followed by weakness of other parts including the bulbar regions, and died at age 45. Since this case is a member of a family with FALS harboring the R521C mutation of the FUS gene, she may have carried the same FUS mutation. Histopathologically, neuronal loss was evident in the motor system and other areas including the cuneate nucleus of the medulla oblongata. BIs appeared in the brain stem, cerebellum and anterior horn of the lumbar cord. FUS-ir neuronal cytoplasmic inclusions, glial cytoplasmic inclusions and dystrophic neurites were more abundantly and widely occurring than BIs, especially in the cuneate nucleus and globus pallidus. These findings support the idea that both BIs and FUS-ir structures are pathological hallmarks of a subset of ALS cases.
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PMID:Occurrence of basophilic inclusions and FUS-immunoreactive neuronal and glial inclusions in a case of familial amyotrophic lateral sclerosis. 2040 61

Amyotrophic lateral sclerosis (ALS) has its onset in middle age and is a progressive disorder characterized by degeneration of motor neurons of the primary motor cortex, brainstem and spinal cord. Most cases of ALS are sporadic, but about 10% are familial. Genes known to cause classic familial ALS (FALS) are superoxide dismutase 1 (SOD1), ANG encoding angiogenin, TARDP encoding transactive response (TAR) DNA-binding protein TDP-43 (ref. 4) and fused in sarcoma/translated in liposarcoma (FUS, also known as TLS). However, these genetic defects occur in only about 20-30% of cases of FALS, and most genes causing FALS are unknown. Here we show that there are mutations in the gene encoding optineurin (OPTN), earlier reported to be a causative gene of primary open-angle glaucoma (POAG), in patients with ALS. We found three types of mutation of OPTN: a homozygous deletion of exon 5, a homozygous Q398X nonsense mutation and a heterozygous E478G missense mutation within its ubiquitin-binding domain. Analysis of cell transfection showed that the nonsense and missense mutations of OPTN abolished the inhibition of activation of nuclear factor kappa B (NF-kappaB), and the E478G mutation revealed a cytoplasmic distribution different from that of the wild type or a POAG mutation. A case with the E478G mutation showed OPTN-immunoreactive cytoplasmic inclusions. Furthermore, TDP-43- or SOD1-positive inclusions of sporadic and SOD1 cases of ALS were also noticeably immunolabelled by anti-OPTN antibodies. Our findings strongly suggest that OPTN is involved in the pathogenesis of ALS. They also indicate that NF-kappaB inhibitors could be used to treat ALS and that transgenic mice bearing various mutations of OPTN will be relevant in developing new drugs for this disorder.
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PMID:Mutations of optineurin in amyotrophic lateral sclerosis. 2042 14

This paper, written by French amyotrophic lateral sclerosis (ALS) center experts, presents an update of recent advances in fundamental, epidemiological and clinical research in ALS based on a review of the literature between September 2008 and November 2009. Among other pathophysiological mechanisms, the role of stress of the endoplasmic reticulum and the importance of energetic metabolic disturbances have been underscored. In the field of genetics, research has been advanced through the identification of mutations of the gene FUsed in Sarcoma/Translated in LipoSarcoma (FUS/TLS) in individuals with familial and sporadic ALS. This gene is involved in the regulation of transcription, splicing and RNA transport, and has functional homology to another ALS gene, TARDBP, which suggests that a common mechanism may underlie motor neuron degeneration. A report showed that mice expressing a mutant form of human TDP-43 develop a progressive and fatal neurodegenerative disease reminiscent of both ALS and frontotemporal lobar degeneration with ubiquitin aggregates (FTLD-U), providing a new animal model that may help to better understand the pathophysiology and test new therapeutics. Beside genetic studies, several epidemiologic studies have investigated the role of environmental factors. A recent study suggests that smoking is a risk factor for developing ALS and it is hypothesized that this could occur through lipid peroxidation via formaldehyde exposure. From a neuroprotective perspective, trials with IGF-1, sodium valproate, coenzyme Q or glatiramer acetate have failed to demonstrate any beneficial effect. A study published in 2008 argued that lithium may have a neuroprotective effect in ALS mice and also in patients. However, two preclinical studies failed to replicate the neuroprotective effect of lithium in ALS mice. Therapeutic trials have been performed or are currently ongoing in Europe and North America. Their results have not yet been published.
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PMID:[Research in amyotrophic lateral sclerosis: what is new in 2009?]. 2047 59

Frontotemporal lobar degeneration (FTLD) is a clinical syndrome characterized by behavioral and language difficulties, which refers to a clinically, genetically, and neuropathologically heterogeneous group of neurodegenerative disorders. Familial FTLD has been linked to mutations in several genes: the microtubule-associated protein tau (MAPT), progranulin (GRN), valosin-containing protein (VCP) and charged multivescicular body protein 2B (CHMP2B), and genetic locus on chromosome 9p linked to familial amyotrophic lateral sclerosis (ALS) and frontotemporal dementia. The associated neuropathology is characterized by selective degeneration of the frontal and temporal lobes with the neuronal and/or glial inclusions. The current classification of FTLD neuropathology is based on the major constituent protein of them: tau, TAR DNA-binding protein of 43 kD (TDP-43), and fused in sarcoma (FUS). Abnormal phosphorylation, ubiquitination, and proteolytic cleavage are the common pathologic signature of tau and TDP-43 accumulated in diseased brains. Recent findings of TDP-43 and FUS reveal that FTLD and ALS share a common mechanism of pathogenesis. This review focuses on the current understanding of the molecular neuropathology of FTLD, and their relevance to the development of the therapeutics.
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PMID:[The molecular pathology of frontotemporal lobar degeneration]. 2049 55


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