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

Cyclin-dependent kinase 5 (Cdk5) displays kinase activity predominantly in post-mitotic neurons and its physiological roles are unrelated to cell cycle progression. Cdk5 is activated by its binding to a neuron-specific activator, p35 or p39. The protein amount of p35 or p39 is a primary determinant of the Cdk5 activity in neurons, with the amount of p35 or p39 being determined by its synthesis and degradation. The expression of p35 is induced in differentiated neurons and is enhanced by extracellular stimuli such as neurotrophic factors or extracellular matrix molecules, specifically those acting on the ERK/Erg pathway. p35 is a short-lived protein and its degradation determines the life span. Degradation is mediated by the ubiquitin/proteasome system, similar to that for cyclins in proliferating cells. Autophosphorylation of p35 by Cdk5 is a signal for ubiquitination/degradation, and the degradation of p35 is triggered by glutamate treatment in cultured neurons. p35 is cleaved to p25 by calpain at the time of neuronal cell death, and this limited cleavage is suggested to be the cause of neurodegenerative diseases such as Alzheimer's disease. Active Cdk5 changes the cellular localization by cleavage of p35 to p25; p35/Cdk5 is associated with membrane or cytoskeletons, but p25/Cdk5 is a soluble protein. Cleavage also increases the life span of p25 and changes the activity or substrate specificity of Cdk5. p25/Cdk5 shows higher phosphorylating activity to tau than p35/Cdk5 in a phosphorylation site-specific manner. Phosphorylation of p35 suppresses cleavage by calpain. Thus, phosphorylation of p35 modulates its proteolytic pattern, stimulates proteasomal degradation and suppresses calpain cleavage. Phosphorylation is age dependent, as p35 is phosphorylated in foetal brains, but unphosphorylated in adult brains. Therefore, foetal phosphorylated p35 is turned over rapidly, whereas adult unphosphorylated p35 has a long life and is easily cleaved to p25 when calpain is activated. p39 is also a short-lived protein and cleaved to the N-terminal truncation form of p29 by calpain. How the metabolism of p39 is regulated, however, is a future problem to be investigated.
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PMID:The regulation of cyclin-dependent kinase 5 activity through the metabolism of p35 or p39 Cdk5 activator. 1467 9

Alzheimer's disease (AD) is characterised by the accumulation of insoluble beta-amyloid (A beta) fibrils in the brain. Factors that promote A beta fibrillogenesis may influence the pathogenesis of AD and represent targets for therapeutic intervention. Some A beta deposited in AD may originate in the circulation and plasma factors could promote A beta deposition, particularly in the cerebrovasculature. We investigated the effects of plasma low-density lipoprotein (LDL), in both its native and oxidised forms, on A beta(1-40) fibrillogenesis and vasoactivity. LDL enhanced A beta fibrillogenesis in a process dependent on LDL concentration and the oxidative state of the lipoprotein, as indicated by measurements of thiobarbituric acid reactive substances (TBARS) and conjugated dienes. LDL's actions were inhibited by the iA beta 5 peptide, suggesting that LDL-induced A beta polymerisation involved beta-pleated sheet formation. Potentiated A beta polymerisation was reflected by enhanced A beta-mediated vascular responses. Human endothelial cells exposed to fibrillar A beta generated with LDL, especially oxidised LDL, exhibited decreased 20S proteasome activity. Rat aortic ring constriction induced by noradrenaline was enhanced by A beta fibrils generated with LDL, with oxidised LDL producing the more marked effects. Should plasma lipoproteins prove to play a role in cerebral A beta deposition their modification with statins or antioxidants may offer therapeutic benefit.
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PMID:Potentiation of beta-amyloid polymerisation by low-density lipoprotein enhances the peptide's vasoactivity. 1473 98

Oxidative stress is now recognized as accountable for redox regulation involving reactive oxygen species (ROS) and reactive nitrogen species (RNS). Its role is pivotal for the modulation of critical cellular functions, notably for neurons astrocytes and microglia, such as apoptosis program activation, and ion transport, calcium mobilization, involved in excitotoxicity. Excitotoxicity and apoptosis are the two main causes of neuronal death. The role of mitochondria in apoptosis is crucial. Multiple apoptotic pathways emanate from the mitochondria. The respiratory chain of mitochondria that by oxidative phosphorylation, is the fount of cellular energy, i.e. ATP synthesis, is responsible for most of ROS and notably the first produced, superoxide anion (O(2)(;-)). Mitochondrial dysfunction, i.e. cell energy impairment, apoptosis and overproduction of ROS, is a final common pathogenic mechanism in aging and in neurodegenerative disease such as Alzheimer's disease (AD), Parkinson's disease (PD) and amyotrophic lateral sclerosis (ALS). Nitric oxide (NO(;)), an RNS, which can be produced by three isoforms of NO-synthase in brain, plays a prominent role. The research on the genetics of inherited forms notably ALS, AD, PD, has improved our understanding of the pathobiology of the sporadic forms of neurodegenerative diseases or of aging of the brain. ROS and RNS, i.e. oxidative stress, are not the origin of neuronal death. The cascade of events that leads to neurons, death is complex. In addition to mitochondrial dysfunction (apoptosis), excitotoxicity, oxidative stress (inflammation), the mechanisms from gene to disease involve also protein misfolding leading to aggregates and proteasome dysfunction on ubiquinited material.
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PMID:Neurodegenerative diseases and oxidative stress. 1473 60

The accumulation of D-isomers of aspartic acid (D-Asp) in proteins during aging has been implicated in the pathogenesis of Alzheimer's disease, cataracts, and arteriosclerosis. Here, we identified a specific lactacystin-sensitive endopeptidase that cleaves the D-Asp-containing protein and named it D-aspartyl endopeptidase (DAEP). DAEP has a multi-complex structure (MW: 600kDa) and is localized in the inner mitochondrial membrane of mouse and rabbit, but DAEP activity was not detected in Escherichia coli, Saccharomyces cerevisiae, and Caenorhabditis elegans. A specific inhibitor for DAEP was newly synthesized, and inhibited DAEP activity (IC(50), 3microM), a factor of 10 greater than lactacystin on DAEP. On the other hand, the inhibitor did not inhibit either the 20S or 26S proteasome.
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PMID:Mammalian D-aspartyl endopeptidase: a scavenger for noxious racemized proteins in aging. 1474 96

Inhibition of proteasome activity occurs in normal aging and in a wide variety of neurodegenerative conditions including Alzheimer's disease and Parkinson's disease. Although each of these conditions is also associated with mitochondrial dysfunction potentially mediated by proteasome inhibition, the relationship between proteasome inhibition and the loss of mitochondrial homeostasis in each of these conditions has not been fully elucidated. In this study, we conducted experimentation in order to begin to develop a more complete understanding of the effects proteasome inhibition has on neural mitochondrial homeostasis. Mitochondria within neural SH-SY5Y cells exposed to low level proteasome inhibition possessed similar morphological features and similar rates of electron transport chain activity under basal conditions as compared with untreated neural cultures of equal passage number. Despite such similarities, maximal complex I and complex II activities were dramatically reduced in neural cells subject to proteasome inhibition. Proteasome inhibition also increased mitochondrial reactive oxygen species production, reduced intramitochondrial protein translation, and increased cellular dependence on glycolysis. Finally, whereas proteasome inhibition generated cells that consistently possessed mitochondria located in close proximity to lysosomes with mitochondria present in the cellular debris located within autophagosomes, increased levels of lipofuscin suggest that impairments in mitochondrial turnover may occur following proteasome inhibition. Taken together, these data demonstrate that proteasome inhibition dramatically alters specific aspects of neural mitochondrial homeostasis and alters lysosomal-mediated degradation of mitochondria with both of these alterations potentially contributing to aging and age-related disease in the nervous system.
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PMID:Proteasome inhibition alters neural mitochondrial homeostasis and mitochondria turnover. 1474 31

Molecular chaperones, ubiquitin ligases and proteasome impairment have been implicated in several neurodegenerative diseases, including Alzheimer's and Parkinson's disease, which are characterized by accumulation of abnormal protein aggregates (e.g. tau and alpha-synuclein respectively). Here we report that CHIP, an ubiquitin ligase that interacts directly with Hsp70/90, induces ubiquitination of the microtubule associated protein, tau. CHIP also increases tau aggregation. Consistent with this observation, diverse of tau lesions in human postmortem tissue were found to be immunopositive for CHIP. Conversely, induction of Hsp70 through treatment with either geldanamycin or heat shock factor 1 leads to a decrease in tau steady-state levels and a selective reduction in detergent insoluble tau. Furthermore, 30-month-old mice overexpressing inducible Hsp70 show a significant reduction in tau levels. Together these data demonstrate that the Hsp70/CHIP chaperone system plays an important role in the regulation of tau turnover and the selective elimination of abnormal tau species. Hsp70/CHIP may therefore play an important role in the pathogenesis of tauopathies and also represents a potential therapeutic target.
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PMID:CHIP and Hsp70 regulate tau ubiquitination, degradation and aggregation. 1496 78

A number of studies have suggested that proteasome inhibition plays a causal role in the neuropathological processes observed in aging, Alzheimer's disease (AD), and Parkinson's disease (PD). Although the effects of acute and toxic proteasome inhibition on neural viability are well documented, at present little is known about the effects of chronic low-level proteasome inhibition on neural homeostasis. In order to address this issue we have established clonal lines of neural SH-SY5Y cells, which were generated after continual exposure to low concentrations of a pharmacological proteasome inhibitor. We have recently utilized these clonal cell lines to demonstrate that chronic low-level proteasome inhibition induces neural alterations that are highly relevant to aging, AD, and PD. The focus of this study was to elucidate the alterations in gene expression that occurred in our clonal cell lines after chronic low-level proteasome inhibition. Taken together, data presented in this report indicate that, although chronic low-level proteasome inhibition alters the expression of a limited number of genes (less than 0.8%), it is observed to significantly alter the expression of genes within specific categories that are highly relevant to aging, AD, and PD. Perhaps just as importantly, our analysis revealed that the vast majority of genes altered by chronic low-level proteasome inhibition have not been significantly characterized, suggesting that proteasome inhibition may mediate effects on neural homeostasis through as yet unidentified cellular processes.
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PMID:Analysis of gene expression in neural cells subject to chronic proteasome inhibition. 1497 47

The gamma-secretase complex functions to cleave several type I transmembrane proteins within their transmembrane domains. These include the amyloid precursor protein, which is central to Alzheimer's disease pathogenesis, as well as N-cadherin and Notch, which regulate transcription. This complex is composed of four requisite integral membrane proteins: presenilin 1 (PS1) or presenilin 2 (PS2), nicastrin, Pen-2, and Aph-1. How these proteins coordinately regulate one another and assemble to form a functional complex is not well understood. In this report we demonstrate that PS1 selectively enhances the stability of Pen-2 protein but not that of nicastrin or Aph-1. In the absence of PS1, Pen-2 was rapidly degraded by the proteasome. As PS1 levels increased, so too did the half-life of Pen-2 and therefore its steady-state levels. In addition, Pen-2 protein levels correlated with PS1 levels not only in cell culture but in transgenic mouse models as well. The genetic absence of PS1 and PS2, and therefore of gamma-secretase-dependent mediation of transcriptional activity, did not affect Pen-2 mRNA levels. Rather, presenilin (PS) regulates Pen-2 levels posttranslationally by preventing its degradation by the proteasome. Thus, the amount of Pen-2 protein is effectively titrated by its PS binding partner, and the rapidity with which Pen-2 is degraded in the absence of PS interactions could provide a mechanism to tightly regulate gamma-secretase complex assembly.
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PMID:Presenilin modulates Pen-2 levels posttranslationally by protecting it from proteasomal degradation. 1503 25

Increased accumulation of alpha-synuclein is associated with certain neurodegenerative diseases including Parkinson's disease (PD) and Alzheimer's disease (AD). One mechanism of alpha-synuclein-induced toxicity involves increased oxidative stress. It was unknown whether neurons overexpressing alpha-synuclein would exhibit increased sensitivity to hydrogen peroxide (H(2)O(2)) or 3-morpholinosydnonimine (SIN-1; a nitrous oxide donor). To study this, we developed a murine neuroblastoma (NB) cell line that overexpresses wild-type human alpha-synuclein (NBP2-PN54) under the control of the cytomegalovirus (CMV) promoter using a retroviral vector. Human alpha-synuclein mRNA and protein were readily detectable in NBP2-PN54 cells. Results showed that differentiated NBP2-PN54 cells exhibited decreased viability in comparison to differentiated vector (NBP2-PN1) and parent (NBP2) control cells. These cells also exhibited increased sensitivity to PGE(2), H(2)O(2) and SIN-1. Because of involvement of proteasome inhibition in neurodegeneration, we also investigated whether treatment of differentiated NBP2-PN54 cells with PGE(2), H(2)O(2) or SIN-1 inhibits proteasome activity. Results showed that H(2)O(2) and SIN-1 inhibited proteasome activity, but PGE(2) did not. These results suggest that overexpression of alpha-synuclein not only participates directly in degeneration of neurons, but it also increases the vulnerability of neurons to other potential neurotoxins.
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PMID:Overexpression of alpha-synuclein decreased viability and enhanced sensitivity to prostaglandin E(2), hydrogen peroxide, and a nitric oxide donor in differentiated neuroblastoma cells. 1507 71

Marinesco bodies are nuclear inclusions found in pigmented neurons of the substantia nigra and locus ceruleus of humans and monkeys. It has long been known that the frequency of these inclusions increases with advancing age, but no pathologic associations have ever been established. We quantified Marinesco body frequency in human autopsy subjects, classified as young normal controls, elderly controls, dementia with Lewy bodies (DLB), Alzheimer disease (AD), and Parkinson disease (PD). Elderly controls, AD cases, and DLB cases had significantly increased Marinesco body frequencies relative to young controls and DLB cases had significantly increased frequencies relative to elderly controls, while PD cases did not differ from young controls; cases with AD did not differ from elderly controls. Lewy body-containing neurons had significantly higher Marinesco body frequencies than non-Lewy body-containing neurons. Marinesco body frequency in elderly control cases correlated significantly, in inverse fashion, with striatal concentrations of the dopaminergic neuron markers dopamine transporter and tyrosine hydroxylase. These statistical associations suggest that Marinesco bodies constitute or mark a pathologic process that may be related to, or contribute to, age-related motor dysfunction and/or Lewy body disorders. Further studies are needed to ascertain the molecular basis of Marinesco body formation; preliminary studies indicate that proteasome dysfunction can lead to similar abnormalities in cultured cells.
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PMID:Substantia nigra Marinesco bodies are associated with decreased striatal expression of dopaminergic markers. 1509 23


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