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)

The only specific marker of sporadic amyotrophic lateral sclerosis (ALS), that represent about 90% of all cases, is neuropathological and based on the demonstration of motoneuronal degeneration associated with typical inclusions positive for ubiquitine and TDP-43. The gene encoding the superoxide dismutase 1 (SOD1) is implicated in about 10-20% of familial ALS. A mutation in the SOD1 gene can be considered as a genetic marker of ALS, and not a polymorphism, if the mutation has been shown to be pathogenic or to segregate to the disease in familial cases. Studies in blood or cerebral spinal fluid have shown biological changes involving different physiopathological pathways (oxidative stress, inflammation, excitotoxicity...). These abnormalities are neither sensitive nor specific enough to provide a diagnostic tool. The ectopic expression of Nogo-A in muscle biopsy is a promising marker but further studies are needed to demonstrate its value as a diagnostic tool in ALS. Studies in series of ALS patients have shown that MR-spectroscopy and diffusion tensor imaging can detect cortico-spinal degeneration. However, because of an overlap between patients and normal subjects, spectroscopic and DTI-parameters cannot be used as diagnostic tool in individual patients. In the future, a combination of biological, radiological and electrophysiological markers, rather than a single marker, may provide diagnostic tool for the diagnosis and follow-up of ALS patients.
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PMID:[New biological and radiological markers in amyotrophic lateral sclerosis]. 1938 63

This paper from a group of French experts in amyotrophic lateral sclerosis (ALS) presents an update of recent advances in fundamental, epidemiological and clinical research in ALS. Recent development in the pathogenesis of ALS suggests that motor neuron degeneration is a multifactorial and noncell autonomous process. Research has been advanced through the identification of the TAR-DNA-binding protein (TDP-43) as a common neuropathological marker of ALS and frontotemporal lobar degeneration with ubiquitin-positive inclusions. Recently, mutations in the TDP-43 gene have been described in individuals with familial and sporadic ALS. Fundamental research in ALS is expected to lead to the disclosure of new diagnostic markers and therapeutic targets. A small trial has suggested that lithium carbonate may slow ALS progression but larger trials will be needed to confirm these results.
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PMID:[Update on fundamental and clinical research in amyotrophic lateral sclerosis]. 1941 44

Initially, trans activation responsive region (TAR)-DNA-binding protein 43 (TDP-43) was considered to be a disease-specific component of ubiquitin-positive and tau-negative inclusions in the brains of patients with frontotemporal lobar degeneration with ubiquitin-positive inclusions (FTLD-U) and amyotrophic lateral sclerosis (ALS); however, it is now widely known that this protein also abnormally accumulates in neurons in other neurodegenerative diseases. On the basis of observation mainly in the medial temporal lobe, TDP-43-immunoreactive neuronal inclusions have been detected in 20-30% of Alzheimer disease (AD) brains. However, it is controversial whether these cases represent a combined disease, that is, mixed AD/FTLD-U. To address this issue, it is necessary to obtain more knowledge on the region-specific distribution of TDP-43 immunoreactivity and also about its relationship to AD common pathology. Here, we describe abnormal TDP-43 immunoreactivity in the medial temporal lobe in 5/16 AD patients (31%). Most of the depositions were cytoplasmic inclusions, mainly located in the subiculum and parahippocampal gyrus and rarely in dentate granular cells of the hippocampus. TDP-43-positive inclusions and senile plaque/neurofibrillary tangle distribution were not always identical, and intracellular colocalizations of TDP-43 and phospho-tau were also infrequent. The cases showing TDP-43-positive inclusions in the medial temporal lobe also showed abnormally highly dense TDP-43 immunoreactivity in the frontal, but not in the parietal and occipital cortices. Intracellularly, TDP-43-positive inclusions were highly ubiquitinated and colocalized with p62 immunoreactivity as well. Our findings suggest that abnormal TDP-43 deposition and AD pathology (formation of senile plaques and neurofibrillary tangles) might occur independently. However, taken together with the results of previous reports, the distribution of TDP-43 immunoreactivity in the hippocampus and frontal cortex in AD appear to be varying. We consider that it is still too early to determine that the TDP-43 accumulation is a part of AD pathology or result from a completely independent pathology.
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PMID:Regional distribution of TDP-43 inclusions in Alzheimer disease (AD) brains: their relation to AD common pathology. 1942 39

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

Recently, fused in sarcoma/translated in liposarcoma (FUS/TLS) gene, located on chromosome 16p11.2, has been identified as a disease gene in familial amyotrophic lateral sclerosis (FALS). We have analyzed FUS/TLS in a cohort of 52 index cases from seven Italian regions with non-SOD1 and non-TARDBP FALS. We identified a heterozygous c.G1542C missense mutation in a family of northern Italian origin, and a heterozygous c.C1574T missense mutation in a family of Sicilian origin. Both variants are located in exon 15 encoding the RNA-recognition motif, and result in a substitution of an arginine with a serine in position 514 (p.R514S) and substitution of a proline with a leucine at position 525 (p.P525L), respectively. Overall, the two mutations accounted for 3.8% of 52 non-SOD1 and non-TDP43 index cases of FALS. The clinical phenotype was similar within each of the families, with a predominantly upper limb onset in the family carrying the p.R514S mutation and bulbar onset, with very young age and a rapid course in the family carrying the p.P525L mutation.
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PMID:Two Italian kindreds with familial amyotrophic lateral sclerosis due to FUS mutation. 1945 Sep 4

Non-amyloid, ubiquitinated cytoplasmic inclusions containing TDP-43 and its C-terminal fragments are pathological hallmarks of amyotrophic lateral sclerosis (ALS), a fatal motor neuron disorder, and frontotemporal lobar degeneration with ubiquitin-positive inclusions (FTLD-U). Importantly, TDP-43 mutations are linked to sporadic and non-SOD1 familial ALS. However, TDP-43 is not the only protein in disease-associated inclusions, and whether TDP-43 misfolds or is merely sequestered by other aggregated components is unclear. Here, we report that, in the absence of other components, TDP-43 spontaneously forms aggregates bearing remarkable ultrastructural similarities to TDP-43 deposits in degenerating neurons of ALS and FTLD-U patients [corrected] . The C-terminal domain of TDP-43 is critical for spontaneous aggregation. Several ALS-linked TDP-43 mutations within this domain (Q331K, M337V, Q343R, N345K, R361S, and N390D) increase the number of TDP-43 aggregates and promote toxicity in vivo. Importantly, mutations that promote toxicity in vivo accelerate aggregation of pure TDP-43 in vitro. Thus, TDP-43 is intrinsically aggregation-prone, and its propensity for toxic misfolding trajectories is accentuated by specific ALS-linked mutations.
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PMID:TDP-43 is intrinsically aggregation-prone, and amyotrophic lateral sclerosis-linked mutations accelerate aggregation and increase toxicity. 1946 77

The transactive response (TAR) DNA binding protein 43 (TDP-43) has been recently implicated as a major component of ubiquitinated inclusions in amyotrophic lateral sclerosis (ALS, motor neuron disease: MND) and ALS-related disorders. In this study, we examined abnormal TDP-43 pathology in 13 sporadic ALS (SALS), six familial ALS (FALS) with and without Cu/Zn superoxide dismutase (SOD1) mutations (SOD1-FALS and non-SOD1-FALS), Guam ALS, two frontotemporal lobar degeneration with MND/ALS (FTLD-MND/ALS), one FTLD with ubiquitin-only-immunoreactive inclusions (FTLD-U) and two progressive supranuclear palsy (PSP). Sections from the spinal cord were processed for immunohistochemistry using antibodies against TDP-43, ubiquitin, p62, cystatin C, phosphorylated tau protein (P-tau; AT8), alpha-synuclein and phosphorylated neurofilament protein (P-NF). In 12 out of 13 SALS and both Guam ALS cases ubiquitin and p62-immunoreactive (IR) neuronal inclusions co-localized with TDP-43. In three out of four SOD1-FALS and one of two non-SOD1-FALS cases, TDP-43-IR inclusions were absent despite the presence of p62 and/or ubiquitin-IR inclusions. However, a single TDP-43-IR neuronal inclusion co-localized with p62 and ubiquitin in one SOD1-FALS (His48Gln) case. Except for one neuron in a Guam case, all TDP-43-IR neuronal inclusions were negative for P-tau (AT8). TDP-43-IR glial inclusions and neurites were also demonstrated. The TDP-43 is a consistent component of the ubiquitinated inclusions in SALS and Guam ALS, but TDP-43-IR inclusions are absent or scarce in SOD1-FALS.
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PMID:TDP-43 is consistently co-localized with ubiquitinated inclusions in sporadic and Guam amyotrophic lateral sclerosis but not in familial amyotrophic lateral sclerosis with and without SOD1 mutations. 1949 40

TAR DNA binding protein of 43 kDa (TDP-43) is a major component of the ubiquitin-positive inclusions found in the brain of patients with frontotemporal lobar degeneration (FTLD-U) and amyotrophic lateral sclerosis (ALS). Here, we report that expression of TDP-43 C-terminal fragments as green fluorescent protein (GFP) fusions in SH-SY5Y cells results in the formation of abnormally phosphorylated and ubiquitinated inclusions that are similar to those found in FTLD-U and ALS. Co-expression of DsRed-tagged full-length TDP-43 with GFP-tagged C-terminal fragments of TDP-43 causes formation of cytoplasmic inclusions positive for both GFP and DsRed. Cells with GFP and DsRed positive inclusions lack normal nuclear staining for endogenous TDP-43. These results suggest that GFP-tagged C-terminal fragments of TDP-43 are bound not only to transfected DsRed-full-length TDP-43 but also to endogenous TDP-43. Endogenous TDP-43 may be recruited to cytoplasmic aggregates of TDP-43 C-terminal fragments, which results in the failure of its nuclear localization and function. Interestingly, expression of GFP-tagged TDP-43 C-terminal fragments harboring pathogenic mutations that cause ALS significantly enhances the formation of inclusions. We also identified cleavage sites of TDP-43 C-terminal fragments deposited in the FTLD-U brains using mass spectrometric analyses. We propose that generation and aggregation of phosphorylated C-terminal fragments of TDP-43 play a primary role in the formation of inclusions and resultant loss of normal TDP-43 localization, leading to neuronal degeneration in TDP-43 proteinopathy.
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PMID:Truncation and pathogenic mutations facilitate the formation of intracellular aggregates of TDP-43. 1951 51

Neuronal and glial deposition of misfolded, proteolytically processed, polyubiquitinated and abnormally phosphorylated C-terminal fragments (CTFs) of the TAR DNA binding protein-43 (TDP-43) is a pathological hallmark of frontotemporal lobar degeneration with ubiquitin positive inclusions (FTLD-U) and certain cases of amyotrophic lateral sclerosis. We demonstrate that TDP-43 can be proteolytically processed by caspases upon induction of apoptosis to a major 35 kDa and a minor 25 kDa CTF. These fragments are initially soluble, but over time they accumulate as insoluble and pathologically phosphorylated derivatives. However, proteolytic processing appears not to be absolutely required for the deposition of insoluble TDP-43 species, since a caspase resistant mutant of TDP-43 is also converted into insoluble species. Phosphorylation at S409/410 apparently occurs late during the conversion of soluble to insoluble TDP-43, suggesting that phosphorylation is not a prerequisite for aggregation. Loss of function of the progranulin (PGRN) gene causes FTLD-U with TDP-43 positive inclusions and has been suggested to lead to caspase activation and subsequent TDP-43 processing. However, siRNA-mediated knockdown of PGRN in cell culture as well as a PGRN gene knockout in mice failed to cause the formation of the disease characterizing CTFs of TDP-43. Our findings therefore suggest that caspase-mediated processing generates CTFs of similar biochemical properties as those occurring in nuclear and cytoplasmic deposits of FTLD-U patients independent of PGRN levels.
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PMID:Proteolytic processing of TAR DNA binding protein-43 by caspases produces C-terminal fragments with disease defining properties independent of progranulin. 1952 33

The 43-kDa TAR DNA-binding protein (TDP-43) is known to be a major component of the ubiquitinated inclusions characteristic of amyotrophic lateral sclerosis and frontotemporal lobar degeneration with ubiquitin-positive inclusions. Although TDP-43 is a nuclear protein, it disappears from the nucleus of affected neurons and glial cells, implicating TDP-43 loss of function in the pathogenesis of neurodegeneration. Here we show that the knockdown of TDP-43 in differentiated Neuro-2a cells inhibited neurite outgrowth and induced cell death. In knockdown cells, the Rho family members RhoA, Rac1, and Cdc42 GTPases were inactivated, and membrane localization of these molecules was reduced. In addition, TDP-43 depletion significantly suppressed protein geranylgeranylation, a key regulating factor of Rho family activity and intracellular localization. In contrast, overexpression of TDP-43 mitigated the cellular damage caused by pharmacological inhibition of geranylgeranylation. Furthermore administration of geranylgeranyl pyrophosphate partially restored cell viability and neurite outgrowth in TDP-43 knockdown cells. In summary, our data suggest that TDP-43 plays a key role in the maintenance of neuronal cell morphology and survival possibly through protein geranylgeranylation of Rho family GTPases.
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PMID:TDP-43 depletion induces neuronal cell damage through dysregulation of Rho family GTPases. 1953 26


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