EC:3.4.25.1 - FACTA Search

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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)

p130 is a tumor suppressor of the pocket protein family whose expression is posttranscriptionally regulated and largely G0 restricted. The mechanism of down-regulation of p130 expression in proliferating cells was investigated. Our results indicate that the decline of p130 expression as G0 cells reenter the cell cycle is due to a decrease in protein stability. The enhancement of p130 turnover in late G1 and S phase compared with G0 and early G1 phase was dependent on Cdk4/6-specific phosphorylation of p130 on Serine 672, and independent of Cdk2 activity. The activity of the ubiquitin ligase complex Skp1-Cul1/Cdc53-F-box protein Skp2 (SCF(Skp2)) and the proteasome were necessary for p130 degradation. In vitro, recombinant Skp2 was able to bind hyperphosphorylated but not dephosphorylated p130. Furthermore, in vitro polyubiquitination of p130 by SCF(Skp2) was specifically dependent on phosphorylation of p130 on Serine 672. Thus, like the Cdk inhibitor p27(Kip1), p130 turnover is regulated by Cdk-dependent G1 phosphorylation leading to ubiquitin-dependent proteolysis.
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PMID:The pRb-related protein p130 is regulated by phosphorylation-dependent proteolysis via the protein-ubiquitin ligase SCF(Skp2). 1243 35

We demonstrated previously that nonsteroidal anti-inflammatory drugs (NSAIDs) increased p27(Kip1) by inhibiting protein degradation to suppress the proliferation of human lung cancer cells. In this study, we elucidate the molecular mechanism by which NSAIDs modulate p27(Kip1) proteolysis. Immunoblotting and in vitro ubiquitination assays indicated that the expression of Cul1 and Skp2 and ubiquitination activity toward p27(Kip1) were not regulated by NSAIDs. On the contrary, we found that NSAIDs inhibited proteasome activity to increase p27(Kip1) protein levels. NSAIDs suppressed the expression of chymotrypsin-like catalytic subunits (beta5, LMP7, and LMP2), but did not directly block enzymatic activity, to inhibit proteasome activity. Reverse transcriptase-competitive polymerase chain reaction and promoter activity assays showed that this inhibition occurred at the transcriptional level. In vitro degradation experiments showed that p27(Kip1) degradation was inhibited by NS398, and the addition of purified 26S proteasome reversed this inhibitory effect. Collectively, our results revealed the mechanism by which NSAIDs modulate p27(Kip1) protein degradation and suggest that NSAIDs are a novel class of proteasome inhibitors.
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PMID:Mechanisms underlying nonsteroidal anti-inflammatory drug-induced p27(Kip1) expression. 1243 20

p27 acts as a critical negative regulator of the cell cycle by inhibiting the activity of cyclin/cdk complexes during G0 and G1. Degradation of p27 is a critical event for the G1/S transition and occurs through ubiquitination by SCF(Skp2) and subsequent degradation by the 26S-proteasome. A tumor suppressing function of p27 has been demonstrated in mouse models and studies of human tumors. More recent evidence suggests that Skp2, the specific recognition factor for p27 ubiquitination, has oncogenic properties. This review will focus on the regulation of p27 proteolysis and its consequences for tumorigenesis.
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PMID:Deregulated degradation of the cdk inhibitor p27 and malignant transformation. 1250 55

Poor prognosis neuroblastoma (NB) tumors are marked by amplification and overexpression of N-myc. Retinoic acid (RA) decreases N-myc levels and induces cell cycle arrest in vitro and increases event-free survival in advanced stage NB patients. In this study, we investigated the mechanism(s) by which RA regulates cell cycle and how N-myc affects NB cell cycle progression. Constitutive N-myc overexpression stimulates increases in cyclin E-dependent kinase activity and decreases in p27 resulting in increased DNA synthesis. N-myc regulates p27 levels through an increase in targeting of p27 to the proteasome via cyclin E kinase-dependent phosphorylation of p27 and its ubiquitination. N-myc also stimulates an increase in proteasome activity. In RA-treated cells in which N-myc levels decline as p27 levels increase, degradation of p27 is also decreased. However, RA does not affect the activity of proteasome. The decrease in the degradation of p27 in RA-treated cells is due in part to a decrease in the N-myc stimulated phosphorylation of p27. However, RA also decreases Skp2 levels thus impairing the ability of p27 to be ubiquitinated. Thus, RA induces both N-myc-dependent and -independent mechanisms to minimize the degradation of p27 and arrest NB cell growth.
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PMID:Retinoic acid decreases targeting of p27 for degradation via an N-myc-dependent decrease in p27 phosphorylation and an N-myc-independent decrease in Skp2. 1270 Jun 51

Polyubiquitination of a protein is generally the first step in its degradation. This article discusses how altered protein destruction pathways impact the cell cycle and allow for abnormal cell proliferation, and explores how this process can be utilized in anticancer therapy. There are several levels of possible therapeutic intervention in ubiquitin-dependent proteolysis pathways upstream of the proteasome. In principle, targeting specific components of the ubiquitin system may offer an opportunity to develop selective drugs. However, the fact that general proteasome inhibitors have been demonstrated to be effective in cancer therapy suggests that other ubiquitin components that are common to many destruction pathways may also be clinically useful. We will, therefore, evaluate both the specific, rate-limiting enzymes and a number of general, nonselective enzymes as targets for anticancer therapy. Potential nonselective therapeutic strategies that are under investigation in a variety of human cancers include the identification and inhibition of individual F-box proteins, such as Skp2, and the inhibition of the ubiquitin ligases such as the SCF family, Mdm2, and Efp. A general pathway under investigation is the cullin neddylation and deneddylation system, with promising enzymatic targets such as csn5 and Rpn11.
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PMID:Therapeutic anti-cancer targets upstream of the proteasome. 1273 43

The transcription regulatory oncoprotein c-Myc controls genes involved in cell growth, apoptosis, and oncogenesis. c-Myc is turned over very quickly through the ubiquitin/proteasome pathway. The proteins involved in this process are still unknown. We have found that Skp2 interacts with c-Myc and participates in its ubiquitylation and degradation. The interaction between Skp2 and c-Myc occurs during the G1 to S phase transition of the cell cycle in normal lymphocytes. Surprisingly, Skp2 enhances c-Myc-induced S phase transition and activates c-Myc target genes in a Myc-dependent manner. Further, Myc-induced transcription was shown to be Skp2 dependent, suggesting interdependence between c-Myc and Skp2 in activation of transcription. Moreover, Myc-dependent association of Skp2, ubiquitylated proteins, and subunits of the proteasome to a c-Myc target promoter was demonstrated in vivo. The results suggest that Skp2 is a transcriptional cofactor for c-Myc and indicates a close relationship between transcription activation and transcription factor ubiquitination.
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PMID:The F-box protein Skp2 participates in c-Myc proteosomal degradation and acts as a cofactor for c-Myc-regulated transcription. 1276 44

The cyclin-dependent kinase (CDK) inhibitor p27Kip1 plays a key role in growth and development of the mammary epithelium and in breast cancer. p27Kip1 levels are regulated through ubiquitin/proteasome-mediated proteolysis, promoted by CDK2 and the F box protein Skp2 at the G1/S transition, and independent of Skp2 in mid-G1. We investigated the respective roles of Skp2 and subcellular localization of p27Kip1 in down-regulation of p27Kip1 induced in MCF-7 cells by estrogens. 17beta-Estradiol treatment increased Skp2 expression in MCF-7 cells; however, this increase was prevented by G1 blockade mediated by p16Ink4a or the CDK inhibitor roscovitine, whereas down-regulation of p27Kip1 was maintained. Exogenous Skp2 prevented growth arrest of MCF-7 cells by antiestrogen, coinciding with decreased p27Kip1 expression. Under conditions of G1 blockade, p27Kip1 was stabilized by inhibition of CRM1-dependent nuclear export with leptomycin B or by mutation of p27Kip1 (Ser10 --> Ala; S10A) interfering with CRM1/p27Kip1 interaction. Antisense Skp2 oligonucleotides and a dominant-interfering Cul-1(1-452) mutant prevented down-regulation of p27Kip1S10A, whereas Skp2 overexpression elicited its destruction in mitogen-deprived cells. Active mediators of the extracellular signal-regulated kinase (ERK) pathway including Raf-1caax induced cytoplasmic localization of p27Kip1 in antiestrogen-treated cells and prevented accumulation of p27Kip1 in these cells independent of Skp2 expression and coinciding with ERK activation. Genetic or chemical blockade of the ERK pathway prevented down-regulation and cytoplasmic localization of p27Kip1 in response to estrogen. Our studies indicate that estrogens elicit down-regulation of p27Kip1 in MCF-7 cells through Skp2-dependent and -independent mechanisms that depend upon subcellular localization of p27Kip1 and require the participation of mediators of the Ras/Raf-1/ERK signaling pathway.
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PMID:Estrogens down-regulate p27Kip1 in breast cancer cells through Skp2 and through nuclear export mediated by the ERK pathway. 1290 6

The abundance of the cyclin-dependent kinase (CDK) inhibitor p57Kip2, an important regulator of cell cycle progression, is thought to be controlled by the ubiquitin-proteasome pathway. The Skp1/Cul1/F-box (SCF)-type E3 ubiquitin ligase complex SCFSkp2 has now been shown to be responsible for regulating the cellular level of p57Kip2 by targeting it for ubiquitylation and proteolysis. The elimination of p57Kip2 was impaired in Skp2-/- cells, resulting in abnormal accumulation of the protein. Coimmunoprecipitation analysis also revealed that Skp2 interacts with p57Kip2 in vivo. Overexpression of WT Skp2 promoted degradation of p57Kip2, whereas expression of a dominant negative mutant of Skp2 prolonged the half-life of p57Kip2. Mutation of the threonine residue (Thr-310) of human p57Kip2 that is conserved between the COOH-terminal QT domains of p57Kip2 and p27Kip1 prevented the effect of Skp2 on the stability of p57Kip2, suggesting that phosphorylation at this site is required for SCFSkp2-mediated ubiquitylation. Finally, the purified recombinant SCFSkp2 complex mediated p57Kip2 ubiquitylation in vitro in a manner dependent on the presence of the cyclin E-CDK2 complex. These observations thus demonstrate that the SCFSkp2 complex plays an important role in cell-cycle progression by determining the abundance of p57Kip2 and that of the related CDK inhibitor p27Kip1.
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PMID:Degradation of p57Kip2 mediated by SCFSkp2-dependent ubiquitylation. 1292 36

The c-Myc oncoprotein is a transcription factor that controls genes involved in cell growth, apoptosis and oncogenesis. We and others recently showed that the F-box protein Skp2 interacts with c-Myc and participates in its ubiquitylation and proteasomal degradation. Surprisingly, Skp2 was also found to act as a positive cofactor for c-Myc-regulated transcription. Further, Skp2, ubiquitylated proteins and subunits of the proteasome were demonstrated to be associated with a c-Myc target promoter in vivo. We show here that c-Myc interacts with Skp2 as part of the SCFSkp2 E3 ubiquitin ligase complex. Further, c-Myc interacts with the Sug1, an AAA ATPase subunit of the 19S regulatory particle of the proteasome. Inhibition of Sug1 expression by siRNA reduced transcription from a Myc target promoter to the same extent as c-Myc or Skp2 siRNA, implicating Sug1in this process. Taken together these findings suggest a role of the ubiquitin/proteasome system in c-Myc-regulated transcription. A hypothetical model discussing the link between ubiquitylation and transcription will be presented.
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PMID:Implication of the ubiquitin/proteasome system in Myc-regulated transcription. 1296 25

p53-mediated increase in cyclin-dependent kinase inhibitor p21(WAF1) protein is thought to be the major mediator of cell cycle arrest after DNA damage. Previously p21 protein levels have been reported to increase or to decrease after UV irradiation. We show that p21 protein is degraded after irradiation of a variety of cell types with low but not high doses of UV. Cell cycle arrest occurs despite p21 degradation via Tyr(15) inhibitory phosphorylation of cdk2 and differs from the classical p21-dependent checkpoint elicited by ionizing radiation. In contrast to the basal turnover of p21, degradation of p21 switches to ubiquitin/Skp2-dependent proteasome pathway following UV irradiation. ATR activation after UV irradiation is essential for signaling p21 degradation. Finally, UV-induced p21 degradation is essential for optimal DNA repair. These results provide novel insight into regulation of p21 protein and its role in the cellular response to DNA damage.
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PMID:UV irradiation triggers ubiquitin-dependent degradation of p21(WAF1) to promote DNA repair. 1367 83

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