EC:3.4.25.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.25.1 (proteasome)
28,817 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

MS73 is one of a family of ATPases that act as regulatory subunits of the 26S proteasome. Localisation of this ATPase in histological sections of hippocampus from Alzheimer's disease (AD) and in cingulate gyrus sections of dementia with Lewy bodies (DLB) brains was examined immunohistochemically. In all cases of AD (n = 10) neurofibrillary tangles (NFT), plaque neurites and neuropil threads were immunoreactive for MS73. In seven out of the nine cases of DLB, distinctive MS73-positive structures were detected within cortical Lewy bodies. The association of MS73 with these neuronal abnormalities provides further evidence that proteolytic processing involving the 26S proteasome occurs in lesions of AD and DLB.
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PMID:Pathological lesions of Alzheimer's disease and dementia with Lewy bodies brains exhibit immunoreactivity to an ATPase that is a regulatory subunit of the 26S proteasome. 897 6

To determine at the tissue level whether the proteasome (Ps), a unique nonlysosomal protease, is involved in the metabolism of ubiquitinated proteins, we examined for the first time the immunocytochemical localizations of both Ps and ubiquitin (Ub) in sections of various abnormal structures that are known to be ubiquitinated in various neurodegenerative diseases and in the elderly. Concomitant increases of Ps and Ub were observed at the sites of most dystrophic neurites in Alzheimer disease (AD) and parkinsonism-dementia complex on Guam (PDC) and in Lewy bodies in Parkinson's disease and diffuse Lewy body disease, but not in neurofibrillary tangles in AD or PDC, in filamentous inclusions within anterior horn cells in sporadic motor neuron disease, or in eosinophilic granules in the olivary nucleus of the elderly. These results at the tissue level indicated that Ps is involved in the metabolism of some, but not all, ubiquitinated proteins and structures in various neurodegenerative disorders. This suggests that the involvement of Ps in the metabolism of ubiquitinated structures differs in different cases and at different stages of disease. These results and our previous immunocytochemical studies of lysosomal cathepsin proteases suggest that both nonlysosomal and lysosomal systems are involved in the metabolism of various ubiquitinated proteins and that their involvements differ in different structures and at different stages of degeneration of the structures.
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PMID:Immunocytochemical co-localization of the proteasome in ubiquitinated structures in neurodegenerative diseases and the elderly. 903 65

HIV-1 infection of the central nervous system can cause severe neurologic disease although only microglial cells and brain macrophages are susceptible to productive viral infection. Substances secreted by infected cells are thought to cause disease indirectly. Tumor necrosis factor alpha (TNF-alpha) is one candidate neurotoxin and is upregulated during HIV-1 infection of the brain, likely via activation of the transcription factor NF-kappaB. We used the proteasome inhibitors, MG132 and ALLN (N-acetyl-Leu-Leu-Norleucinal), to inhibit NF-kappaB activation in primary human fetal microglia (PHFM) and primary monocyte derived-macrophages, and showed that they could block TNF-alpha release stimulated by lipopolysaccharide (LPS) or TNF-alpha. In addition, we performed electrophoretic mobility shift analysis and determined that in microglia, the p50/p65 heterodimer of NF-kappaB is activated by LPS stimulation, and is inhibited by MG132. Thus, blockade of NF-kappaB activation in microglia in vitro can decrease production of TNF-alpha and may prove to be a novel strategy for treating HIV-1 dementia.
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PMID:Proteasome blockers inhibit TNF-alpha release by lipopolysaccharide stimulated macrophages and microglia: implications for HIV-1 dementia. 1022 15

Alzheimer's disease is the most common cause of dementia in the elderly. Although several genetic defects have been identified in patients with a family history of this disease, the majority of cases involve individuals with no known genetic predisposition. A mutant form of ubiquitin, termed Ub(+1), has been selectively observed in the brains of Alzheimer's patients, including those with nonfamilial Alzheimer's disease, but it has been unclear why Ub(+1) expression should be deleterious. Here we show that Ub(+1) is an efficient substrate for polyubiquitination in vitro and in transfected human cells. The resulting polyubiquitin chains are refractory to disassembly by deubiquitinating enzymes and potently inhibit the degradation of a polyubiquitinated substrate by purified 26S proteasomes. Thus, expression of Ub(+1) in aging brain could result in dominant inhibition of the Ub-proteasome system, leading to neuropathologic consequences.
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PMID:Inhibition of the ubiquitin-proteasome system in Alzheimer's disease. 1094 93

The clinical and neuropathological features in the P301L tauopathy have been described in several kindreds. In this study, we present findings in two previously unreported patients, evaluated both genetically, neuropathologically, and with multiparametric confocal immunofluorescence. The patients were female, with age 65 and 75 years old, respectively. Both exhibited clinical symptoms of frontotemporal dementia (FTD). Marked atrophy of the frontal and temporal lobes with moderate atrophy of the remaining cerebral and brain stem structures was present. The substantia nigra was pale. The atrophic neocortical regions exhibited neuronal loss, marked gliosis, status spongiosus, and occasional ballooned neurons. By light microscopy, the most striking findings were argyrophilic perinuclear rings, frequently with an attached small inclusion (mini Pick-like body), especially prominent in dentate granule cells, entorhinal and temporal cortices, and to a lesser extent in CA1. These structures were immunopositive for tau protein (Tau-2, AT-8, PHF-1, MC-1). Numerous astrocytic plaques, tuft-shaped astrocytes, coiled bodies, and dystrophic neurites were also present. Confocal immunofluorescence with a P301L-specific antibody directly demonstrated the presence of the mutated protein in the PHF-1 positive aggregates. The mutated tau protein (4-repeat tau) was detected in the mini Pick-like bodies, indicating an important biochemical difference between these inclusions and classical Pick bodies (3-repeat tau). Additionally, since 4-repeat tau protein is not normally present in dentate granule cells, this result also suggests an abnormality in the mRNA splicing mechanisms. The structural features of the involvement of proteolytic systems in this tauopathy were assessed by immunohistochemistry for the active form of calpain II (C-27) and ubiquitin. Colocalization of PHF-1 positive aggregates with C-27 points to the possible involvement of calpain in tau protein hyperphosphorylation. Absence of immunostaining for ubiquitin indicates possible dysfunction of the ubiquitin-proteasome system in this tauopathy.
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PMID:P301L tauopathy: confocal immunofluorescence study of perinuclear aggregation of the mutated protein. 1212 82

Neurodegenerative disorders such as Parkinson's disease (PD) and 'dementia with Lewy bodies' (DLB) are characterized pathologically by selective neuronal death and the appearance of intracytoplasmic protein aggregates (Lewy bodies). The process by which these inclusions are formed and their role in the neurodegenerative process remain elusive. In this study, we demonstrate a close relationship between Lewy bodies and aggresomes, which are cytoplasmic inclusions formed at the centrosome as a cytoprotective response to sequester and degrade excess levels of potentially toxic abnormal proteins within cells. We show that the centrosome/aggresome-related proteins gamma-tubulin and pericentrin display an aggresome-like distribution in Lewy bodies in PD and DLB. Lewy bodies also sequester the ubiquitin-activating enzyme (E1), the proteasome activators PA700 and PA28, and HSP70, all of which are recruited to aggresomes for enhanced proteolysis. Using novel antibodies that are specific and highly sensitive to ubiquitin-protein conjugates, we revealed the presence of numerous discrete ubiquitinated protein aggregates in neuronal soma and processes in PD and DLB. These aggregates appear to be being transported from peripheral sites to the centrosome where they are sequestered to form Lewy bodies in neurons. Finally, we have shown that inhibition of proteasomal function or generation of misfolded proteins cause the formation of aggresome/Lewy body-like inclusions and cytotoxicity in dopaminergic neurons in culture. These observations suggest that Lewy body formation may be an aggresome-related event in response to increasing levels of abnormal proteins in neurons. This phenomenon is consistent with growing evidence that altered protein handling underlies the etiopathogenesis of PD and related disorders.
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PMID:Aggresome-related biogenesis of Lewy bodies. 1247 81

The understanding of the molecular mechanisms underlying Parkinson's disease, progressive supranuclear palsy, and multiple system atrophy has made significant progress in the recent years. Lewy body appears to be principally made of alpha-synuclein, a presynaptic protein. It also contains ubiquitin and some components of the proteasome: this suggests that alteration of protein catabolism may be involved in its formation. In favor of this hypothesis, it should be noted that Parkin, a protein that is mutated in autosomal recessive Parkinson disease, is a ubiquitin ligase. Immunohistochemistry has shown that alpha-synuclein accumulates not only in the cell body of the neurones (Lewy body) but also in their processes (Lewy neurites); it has emphasized the severity of the pathology in the nucleus basalis of Meynert, amygdala, CA2-3 sector of the hippocampus and cerebral cortex. Cortical Lewy bodies are not considered any more the marker of dementia with Lewy bodies: they are, indeed, found in true Parkinson disease cases. In progressive supranuclear palsy, 4 repeats tau accumulates in the cytoplasm of neurones and glia. At electron microscopy, the accumulation is made of straight filaments. It involves not only the neurones (where it is the main constituent of the neurofibrillary tangles) but also the glia. Astrocytic tuft is to day considered the morphological marker of progressive supranuclear palsy. Tau protein accumulates in the cell body of the oligodendrocyte as a "coiled body"; the protein is also integrated in the myelin sheath, when the cytoplasm of the oligodendrocyte wraps around the axon. This explains the numerous "threads" that are visible in cases of progressive supranuclear palsy. Striato-nigral degeneration, sporadic olivo-ponto-cerebellar atrophy and primitive orthostatic hypotension are various clinico-pathologic aspects of the same disorder: multiple system atrophy. It is also characterized by a morphological marker: the accumulation of alpha-synuclein in the cytoplasm of glial cells, particularly oligodendrocytes. The term synucleinopathy has been proposed to describe both idiopathic Parkinson disease and multiple system atrophy. The reason explaining the cellular topography of alpha-synuclein accumulation, neuronal in Parkinson disease, glial in multiple system atrophy is still unknown.
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PMID:[Recent neuropathology of parkinsonian syndromes]. 1277 83

Lewy bodies are intracellular fibrillar inclusions composed of alpha-synuclein. They constitute the pathological hallmark of Parkinson's disease, dementia with Lewy bodies, and other neurodegenerative diseases. Although the majority of Lewy bodies are stained for ubiquitin by immunohistochemistry, the substrate for this modification is poorly understood. Insoluble, urea-soluble alpha-synuclein was separated from soluble fractions and subjected to two-dimensional gel electrophoresis to further characterize pathogenic alpha-synuclein species from disease brains. By using this approach, we found that in sporadic Lewy body diseases a highly modified, disease-associated 22-24-kDa alpha-synuclein species is ubiquitinated. Conjugation of one, two, and, to a lesser extent, three ubiquitins was detected. This 22-24-kDa alpha-synuclein species represents partly phosphorylated protein. Furthermore, no generalized impairment of the proteolytic activity of the proteasome was detected in brain regions with Lewy body pathology. Because unmodified alpha-synuclein is degraded by the proteasome in a ubiquitin-independent manner, these data suggest that accumulation of modified 22-24-kDa alpha-synuclein is a disease-specific event which may overwhelm the proteolytic system, leading to aberrant ubiquitination. Accordingly, carboxyl-terminal-truncated alpha-synuclein, presumably the result of aberrant proteolysis, is found only in association with alpha-synuclein aggregates.
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PMID:Ubiquitination of alpha-synuclein in Lewy bodies is a pathological event not associated with impairment of proteasome function. 1292 79

The Lewy body, an eosinophilic inclusion around 10 microns in diameter, is localised in the neuronal perikaryon. Its dense core is surrounded by a clear halo, which is lacking in the so-called "cortical Lewy bodies". Numerous proteins have been identified in Lewy bodies, among which the three neurofilament isoforms, ubiquitin and proteasome subunits. More recently, alpha-synuclein--a pre-synaptic protein--has been found to be the essential constituent of the Lewy body. Alpha-synuclein antibody has greatly increased the sensitivity of the neuropathological examination: it has emphasized the frequency of "Lewy neurites" (accumulation of alpha--synuclein in neuronal processes) and has shown the importance of extra-nigral pathology. Lewy bodies and neurites are indeed to be found in many areas of the central and peripheral nervous system: stellate ganglia, cardiac and enteric plexus, pigmented nuclei of the brainstem, basal nucleus of Meynert, amygdala, limbic nuclei of the thalamus, parahippocampal and cingulate gyri, insula and isocortex. Lewy body diseases include at least three clinical syndromes: 1) idiopathic Parkinson disease in which the brainstem bears the brunt of the pathology 2) Parkinson disease dementia in which Lewy lesions are found in the brainstem and are also abundant in the isocortex. A large number of senile plaques is frequently associated. 3) In dementia with Lewy bodies, the same lesions are observed but the cognitive deficit occurs first or shortly (less than one year) after the motor symptoms.
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PMID:[Lewy bodies, a misleading marker for Parkinson's disease?]. 1455 41

Molecular misreading of the ubiquitin-B (UBB) gene results in a dinucleotide deletion in UBB mRNA. The resulting mutant protein, UBB+1, accumulates in the neuropathological hallmarks of Alzheimer disease. In vitro, UBB+1 inhibits proteasomal proteolysis, although it is also an ubiquitin fusion degradation substrate for the proteasome. Using the ligase chain reaction to detect dinucleotide deletions, we report here that UBB+1 transcripts are present in each neurodegenerative disease studied (tauo- and synucleinopathies) and even in control brain samples. In contrast to UBB+1 transcripts, UBB+1 protein accumulation in the ubiquitin-containing neuropathological hallmarks is restricted to the tauopathies such as Pick disease, frontotemporal dementia, progressive supranuclear palsy, and argyrophilic grain disease. Remarkably, UBB+1 protein is not detected in the major forms of synucleinopathies (Lewy body disease and multiple system atrophy). The neurologically intact brain can cope with UBB+1 as lentivirally delivered UBB+1 protein is rapidly degraded in rat hippocampus, whereas the K29,48R mutant of UBB+1, which is not ubiquitinated, is abundantly expressed. The finding that UBB+1 protein only accumulates in tauopathies thus implies that the ubiquitin-proteasome system is impaired specifically in this group of neurodegenerative diseases and not in synucleinopathies and that the presence of UBB+1 protein reports proteasomal dysfunction in the brain.
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PMID:Disease-specific accumulation of mutant ubiquitin as a marker for proteasomal dysfunction in the brain. 1459 71

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