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)

The metabolic pathways governing the turnover of presenilin 1 (PS1) have been incompletely worked out. The PS1 holoprotein has low abundance in many cells and appears to undergo endoproteolytic cleavage near residue 298. We provide evidence that one mechanism by which the PS1 holoprotein is degraded is through the action of the 26S proteasome. We also show that the proteasome does not participate in the endoproteolytic cleavage.
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PMID:Presenilin 1 is actively degraded by the 26S proteasome. 956 62

The majority of cases of early-onset familial Alzheimer disease are caused by mutations in the recently identified presenilin 1 (PS 1) gene, located on chromosome 14. PS1, a 467 amino acid protein, is predicted to be an integral membrane protein containing seven putative transmembrane domains and a large hydrophilic loop between the sixth and seventh membrane-spanning domain. We produced 7 monoclonal antibodies that react with 3 non-overlapping epitopes on the N-terminal hydrophilic tail of PS1. The monoclonal antibodies can detect the full size PS1 at M(r) 47,000 (47K) and a more abundant M(r) 28,000 (28K) product in membrane from human brain and human cell lines. We examined the sub-cellular localization by using these antibodies. Immuno-electronmicroscopic and biochemical analysis indicated that PS1 is localized on cellular membrane (plasma, endoplasmic reticulum, and perinuclear) in COS-7 cells overexpressing PS1. Interestingly, the PS1 immunoreactivity in the plasma membrane was concentrated in the regions with cell-cell contact. This observation suggests a possible role of PS1 on the cell membrane as a cell adhesion molecule. To determine the protease cleaving the full length PS1 to two fragments, we treated cells with various protease inhibitors. Only proteasome inhibitor affected the PS1 processing, indicating that proteasome is a candidate protease for PS1 proteolytic cleavage. PC12 cells transiently transfected with PS1 constructs containing different Alzheimer mutations fail to generate the 28K degradation product in contrast to PC12 cells transfected with wild type PS1. Our results indicate that missense mutations in this form of familial Alzheimer disease may act via a mechanism of impaired proteolytic processing of PS1.
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PMID:[Biochemistry of presenilin 1]. 965 56

Proteolytic processing and degradation tightly regulate the amount of stable, functional presenilin 1 (PSEN1) in the cell. The approximately 46-kDa PSEN1 holoprotein is cleaved into a approximately 30-kDa N-terminal fragment (NTF) and a approximately 20-kDa C-terminal fragment (CTF) by an unknown protease. The fragments are stabilized in a high molecular weight complex and nonincorporated fragments and excess holoprotein are degraded by the 26S proteasome. The tight balance between, on the one hand, processing and incorporation into the stable complex and, on the other hand, proteolytic degradation of excess PSEN1, indicates that minor changes in one of these two processes could be pathologically relevant. Here we demonstrate the direct physical interaction between PSEN1 and two subunits, HC5 and ZETA, of the 20S proteasome. These interactions were identified using an interaction trap screening and were further established in an in vitro binding assay. Furthermore, we were able to coimmunoprecipitate the transfected binding partners, as well as the endogenous PSEN1 and ZETA proteins from HEK 293T cells. Finally, degradation of ubiquitinated wild-type and mutant PSEN1 by the 26S proteasome was demonstrated. In conclusion, we report a direct interaction between PSEN1 and subunits of the 20S catalytic particle of the 26S proteasome, further establishing the involvement of proteasomal degradation in the regulation of PSEN1 turnover.
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PMID:Alzheimer's disease associated presenilin 1 interacts with HC5 and ZETA, subunits of the catalytic 20S proteasome. 1052 5

Presenilin is an essential gene for development that when disrupted leads to a neurogenic phenotype that closely resembles Notch loss of function in Drosophila. In humans, many naturally occurring mutations in Presenilin 1 or 2 cause early onset Alzheimer's disease. Both loss of expression and overexpression of Presenilin suggested a role for this protein in the localization of Armadillo/beta-catenin. In blastoderm stage Presenilin mutants, Arm is aberrantly distributed, often in Ubiquitin-immunoreactive cytoplasmic inclusions predominantly located basally in the cell. These inclusions were not observed in loss of function Notch mutants, suggesting that failure to process Notch is not the only consequence of the loss of Presenilin function. Human presenilin 1 expressed in Drosophila produces embryonic phenotypes resembling those associated with mutations in Armadillo and exhibited reduced Armadillo at the plasma membrane that is likely due to retention of Armadillo in a complex with Presenilin. The interaction between Armadillo/beta-catenin and Presenilin 1 requires a third protein which may be delta-catenin. Our results suggest that Presenilin may regulate the delivery of a multiprotein complex that regulates Armadillo trafficking between the adherens junction and the proteasome.
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PMID:Presenilin affects arm/beta-catenin localization and function in Drosophila. 1107 66

Mutations in the presenilin 1 (PS1) gene are the most common genetic factor underlying the development of early onset familial Alzheimer's disease (FAD). Accumulating evidence has shown that FAD-linked mutations of PS1 enhance the generation of amyloid-beta (1-42) protein. Recently, beta-catenin has been shown to interact with PS1. beta-catenin is essential for the Wnt signalling pathway. However, the biological significance of the interaction between beta-catenin and PS1 in this signalling pathway remains to be clarified. In this study, we investigated the effect of FAD-linked PS1 (M146L) mutation in the Wnt signalling pathway using the conditioned medium containing Wnt-3A. The expression of mutated PS1 inhibited the Wnt-3A-induced accumulation of beta-catenin. Chase analysis of beta-catenin in Wnt-3A-stimulated cells following cycloheximide treatment revealed that PS1 mutation enhanced the generation of the higher molecular mass form of beta-catenin, most likely, ubiquitinated beta-catenin. In addition, the expression of mutated PS1 elevated the level of phosphorylated beta-catenin, which is targeted to the ubiquitin/proteasome pathway. Thus, it appears that PS1 (M146L) mutation down-regulates the Wnt-3A-induced accumulation of beta-catenin due to an increase in the level of phosphorylated beta-catenin.
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PMID:Inhibitory effect of a presenilin 1 mutation on the Wnt signalling pathway by enhancement of beta-catenin phosphorylation. 1135 22

The accumulation of altered proteins is a common pathogenic mechanism in several neurodegenerative disorders. A causal role of protein aggregation was originally proposed in Alzheimer's disease (AD) where extracellular deposition of beta-amyloid (Abeta) is the main neuropathological feature. It is now believed that intracellular deposition of aggregated proteins may be relevant in Parkinson's disease (PD), amyotrophic lateral sclerosis and polyglutamine disorders. An impairment of ubiquitin-proteasome system (UPS) appears directly involved in these disorders. We reviewed the results on the role of protein misfolding in AD and PD and the influence of mutations associated with these diseases on the expression of amyloidogenic proteins. Results of genetic screening of familial cases of AD and PD are summarized. In the familial AD population (70 subjects) we found several mutations of the presenilin 1 (PS1) gene with a frequency of 12.8% and one mutation in the gene encoding the protein precursor of amyloid (APP) (1.4%). One mutation of Parkin in the homozygous form and two in the heterozygous form were identified in our PD population. We also reported data obtained with synthetic peptides and other experimental models, for evaluation of the pathogenic role of mutations in terms of protein misfolding.
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PMID:Protein misfolding in Alzheimer's and Parkinson's disease: genetics and molecular mechanisms. 1239 98

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

Aggresomes have been described as cytoplasmic membrane protein aggregates that are induced by proteasome inhibition or overexpression of certain proteins. Here, we characterized aggresomes formed by the Alzheimer's disease-associated presenilin 1 (PS1) protein. Proteasome inhibition induced accumulation of PS1 in the endoplasmic reticulum (ER) and retrotranslocation of the protein from the ER membrane into the cytoplasm. Aggresomes formed by PS1 modified the ER structure whereas proteasomes were inhibited. Therefore, clear visual identification of PS1 aggresomes required removal of the proteasome inhibitor followed by hours of recovery to redistribute the ER throughout the cells. Aggresomes formed by PS1 did not potentiate or attenuate apoptotic cell death induced by staurosporine treatment. Selective presence of the heat-shock proteins Hsp70 and HDJ-2/HSDJ, but not Hsp90, in aggresomes suggested chaperone-mediated transport of PS1 into these structures. Because proteasome inhibition and heat shock are both known to induce expression of heat shock proteins, we also demonstrated that heat shock alone was sufficient to induce PS1 aggresome formation and Hsp70 expression. These results indicate that aggresome formation by PS1 is chaperone-mediated and can be induced in response to heat-shock stress, a common cellular event in neurodegenerative diseases. Malfunctioning of the proteasome or heat-shock stress response in the brains of patients affected by Alzheimer's disease may lead to the accumulation of stable aggresomes of PS1, perhaps contributing to neurodegeneration.
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PMID:Presenilin 1 forms aggresomal deposits in response to heat shock. 1675 5

HLA (human leucocyte antigen)-A2 is an MHC Class I protein with primary functions in T-cell development and initi-ation of immune cell responses. MHC I proteins also play roles in intercellular adhesion, apoptosis, cell proliferation and neuronal plasticity. By utilizing a sequence comparison analysis, we recently identified HLA-A2 as a potential substrate for the Alzheimer's disease-associated PS1 (presenilin 1)/gamma-secretase. alpha-Secretase-like membrane metalloproteinases are responsible for an initial shedding event, partially mediated by ADAM (a disinteg-rin and metalloproteinase)-10. Accordingly, activation or inhibition of alpha-secretase-like membrane metalloproteinases directly modulated levels of a 14 kDa HLA-A2 CTF (C-terminal frag-ment) in CHO (Chinese-hamster ovary) cells. To show that the HLA-A2 CTF is subsequently cleaved by PS1/gamma-secretase, we re-duced its activity in cell lines stably expressing HLA-A2 and in Jurkat T-cells expressing endogenous MHC I. Treatment with specific PS1/gamma-secretase inhibitors or expression of a dominant-negative construct led to a significant accumulation of HLA-A2 CTFs. We also identified the PS1/gamma-secretase cleavage product of HLA-A2 CTF, termed HLA-A2 intracellular domain, in cell-free and cell-based experiments. In the absence of proteasome inhibitors, HLA-A2 intracellular domain underwent rapid degrad-ation. These data indicate that MHC I proteins undergo extra-cellular domain cleavage mediated by alpha-secretases and the cleavage product is subsequently cleaved by PS1/gamma-secretase.
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PMID:Presenilin/gamma-secretase and alpha-secretase-like peptidases cleave human MHC Class I proteins. 1715 42

The presenilin-dependent gamma-secretase complex is mainly composed of four distinct proteins, namely presenilin 1 or presenilin 2, nicastrin, anterior pharynx defective-1 (Aph-1) and presenilin enhancer (Pen-2). The mechanisms by which the complex is assembled, how its stoichiometry is controlled and how its catalytic activity is regulated are poorly understood. Recent studies indicated that Aph-1 and Pen-2 undergo proteolysis by the proteasome. We have examined the susceptibility of endogenous and overexpressed Aph-1a and Pen-2 to proteolysis by endogenous and purified proteasome as well as by recombinant caspases. We show that endogenous Aph-1a and Pen-2 resist proteolysis by caspases and by the proteasome. Furthermore, we show that unexpected interference of proteasome inhibitors with the cmv promoter region driving expression of Aph-1a and Pen-2 led to artifactual enhancement of overexpressed Aph-1a and Pen-2-like immunoreactivities but that these proteins also resist to in vitro degradation by endogenous and purified proteasome.
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PMID:Study on the putative contribution of caspases and the proteasome to the degradation of Aph-1a and Pen-2. 1759 10

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