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 E2F family of transcription factors plays a key role in regulating cell-cycle progression. Accordingly, E2F is itself tightly controlled by a series of transcriptional and posttranscriptional events. Here we provide evidence that E2FI protein levels are regulated by the ubiquitin-proteasome-dependent degradation pathway. An analysis of E2F1 mutants identified a conserved carboxyl-terminal region, which is required for eliciting ubiquitination and protein turnover. Fusion of this E2F1 carboxyl-terminal sequence to a heterologous protein, GAL4, resulted in destabilization of GAL4. Previous studies identified an overlapping region of E2F1 that facilitates complex formation with retinoblastoma tumor suppressor protein, pRB, and we found that pRB blocks ubiquitination and stabilizes E2F1. These results suggest a new mechanism for controlling the cell-cycle regulatory activity of E2F1.
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PMID:Regulation of E2F through ubiquitin-proteasome-dependent degradation: stabilization by the pRB tumor suppressor protein. 912 75

Neurons withdraw from the cell cycle immediately after differentiation from their proliferative precursors. E2F1, a principal transcription factor that promotes cell cycle progression, must be silenced in neurons. We investigated the E2F1 system in postmitotic neurons derived from murine embryonal carcinoma P19 cells. P19 cells highly expressed the E2F1 gene during neural differentiation, and enriched neurons contained a high abundance of E2F1 mRNA. In contrast, postmitotic neurons possessed extremely low levels of E2F1 protein as assessed by the electrophoretic mobility shift assay and Western blotting. A recombinant E2F1 fusion protein was ubiquitinated in vitro when incubated with neuronal lysates. In addition, treatment with the proteasome inhibitor MG132 increased the endogenous level of E2F1 protein in neurons. These results suggest that the ubiquitin-proteasome pathway contributes, at least in part, to the downregulation of E2F1 protein in postmitotic neurons. Adenovirus-mediated transfer of E2F1 cDNA into postmitotic neurons induced both bromodeoxyuridine incorporation and chromatin condensation, suggesting that deregulated E2F1 expression causes both aberrant S-phase entry and apoptosis of postmitotic neurons. Thus, downregulation of endogenous E2F1 protein in postmitotic neurons may be indispensable for the prevention of their reentry into the cell cycle.
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PMID:Regulation and deregulation of E2F1 in postmitotic neurons differentiated from embryonal carcinoma P19 cells. 1047 29

p19ARF suppresses the growth of cells lacking p53 through an unknown mechanism. p19ARF was found to complex with transcription factors E2F1, -2, and -3. Levels of endogenous or ectopically expressed E2F1, -2, and -3, but not E2F6, were reduced after synthesis of p19ARF, through a mechanism involving increased turnover. p19ARF-induced degradation of E2F1 depended on a functional proteasome, and E2F1 was relocalized to nucleoli when coexpressed with p19ARF. Consistent with reduced levels of E2F1 and E2F3, the proliferation of cells defective for p53 function was suppressed by p19ARF, and the effect was partially reversed by ectopic overexpression of E2F1. These results suggest a broader role for p19ARF as a tumor suppressor, in which targeting of certain E2F species may cooperate with stimulation of the p53 pathway to counteract oncogenic growth signals.
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PMID:p19ARF targets certain E2F species for degradation. 1127 64

The damaged-DNA binding protein DDB consists of two subunits, DDB1 (127 kDa) and DDB2 (48 kDa). Mutations in the DDB2 subunit have been detected in patients suffering from the repair deficiency disease xeroderma pigmentosum (group E). In addition, recent studies suggested a role for DDB2 in global genomic repair. DDB2 also exhibits transcriptional activity. We showed that expression of DDB1 and DDB2 stimulated the activity of the cell cycle regulatory transcription factor E2F1. Here we show that DDB2 is a cell cycle-regulated protein. It is present at a low level in growth-arrested primary fibroblasts, and after release the level peaks at the G(1)/S boundary. The cell cycle regulation of DDB2 involves posttranscriptional mechanisms. Moreover, we find that an inhibitor of 26S proteasome increases the level of DDB2, suggesting that it is regulated by the ubiquitin-proteasome pathway. Our previous study indicated that the cullin family protein Cul-4A associates with the DDB2 subunit. Because cullins are involved in the ubiquitin-proteasome pathway, we investigated the role of Cul-4A in regulating DDB2. Here we show that DDB2 is a specific target of Cul-4A. Coexpression of Cul-4A, but not Cul-1 or other highly related cullins, increases the ubiquitination and the decay rate of DDB2. A naturally occurring mutant of DDB2 (2RO), which does not bind Cul-4A, is not affected by coexpression of Cul-4A. Studies presented here identify a specific function of the Cul-4A gene, which is amplified and overexpressed in breast cancers.
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PMID:The xeroderma pigmentosum group E gene product DDB2 is a specific target of cullin 4A in mammalian cells. 1156 59

E2F family of transcription factors regulates the transcription of genes required for DNA synthesis. E2F is itself controlled by a series of transcriptional and post-transcriptional pathways. Here we provide evidence that proteasome inhibitor-mediated E2F1 gene down-regulation is regulated by transcriptional events. Using the proteasome-specific inhibitors, MG132 and lactacystin, we show that the p53, the cdk inhibitors p21 and p27, and cyclin A are degraded by the ubiquitin-proteasome pathway in human osteosarcoma cells. Interestingly, the expression levels of E2F1 and E2F2 are down-regulated by proteasome inhibitors. E2F promoter and RT-PCR assay clearly demonstrated that proteasome inhibitors could reduce E2F transcriptional activation. However, MG132-induced repression of E2F1 and E2F2 is not associated with ROS generation.
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PMID:Transcriptional repression of E2F gene by proteasome inhibitors in human osteosarcoma cells. 1514 52

Tetrandrine is an antitumor alkaloid isolated from the root of Stephania tetrandra. We find that micromolar concentrations of tetrandrine irreversibly inhibit the proliferation of human colon carcinoma cells in MTT and clonogenic assays by arresting cells in G(1). Tetrandrine induces G(1) arrest before the restriction point in nocodazole- and serum-starved synchronized HT29 cells, without affecting the G(1)-S transition in aphidicolin-synchronized cells. Tetrandrine-induced G(1) arrest is followed by apoptosis as shown by fluorescence-activated cell sorting, terminal deoxynucleotidyl transferase-mediated nick end labeling, and annexin V staining assays. Tetrandrine-induced early G(1) arrest is mediated by at least three different mechanisms. First, tetrandrine inhibits purified cyclin-dependent kinase 2 (CDK2)/cyclin E and CDK4 without affecting significantly CDK2/cyclin A, CDK1/cyclin B, and CDK6. Second, tetrandrine induces the proteasome-dependent degradation of CDK4, CDK6, cyclin D1, and E2F1. Third, tetrandrine increases the expression of p53 and p21(Cip1) in wild-type p53 HCT116 cells. Collectively, these results show that tetrandrine arrests cells in G(1) by convergent mechanisms, including down-regulation of E2F1 and up-regulation of p53/p21(Cip1).
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PMID:Tetrandrine induces early G1 arrest in human colon carcinoma cells by down-regulating the activity and inducing the degradation of G1-S-specific cyclin-dependent kinases and by inducing p53 and p21Cip1. 1560 77

MDM2 is a critical negative regulator of the p53 tumor suppressor protein. Recently, small-molecule antagonists of MDM2, the Nutlins, have been developed to inhibit the p53-MDM2 interaction and activate p53 signaling. However, half of human cancers have mutated p53 and they are resistant to Nutlin treatment. Here, we report that treatment of the p53-mutant malignant peripheral nerve sheath (MPNST) and p53-null HCT116 cells with cisplatin (Cis) and Nutlin-3a induced a degree of apoptosis that was significantly greater than either drug alone. Nutlin-3a also increased the cytotoxicity of both carboplatin and doxorubicin in a series of p53-mutant human tumor cell lines. In the human dedifferentiated liposarcoma cell line (LS141) and the p53 wild-type HCT116 cells, Nutlin-3a induced downregulation of E2F1 and this effect appeared to be proteasome dependent. In contrast, in MPNST and HCTp53-/- cells, Nutlin-3a inhibited the binding of E2F1 to MDM2 and induced transcriptional activation of free E2F1 in the presence of Cis-induced DNA damage. Downregulation of E2F1 by small interfering RNA significantly decreased the level of apoptosis induced by Cis and Nutlin-3a treatment. Moreover, expression of a dominant-negative form of E2F1 rescued cells from apoptosis, whereas cells overexpressing wild-type E2F1 showed an increase in cell death. This correlated with the induction of the proapoptotic proteins p73alpha and Noxa, which are both regulated by E2F1. These results indicate that antagonism of MDM2 by Nutlin-3a in cells with mutant p53 enhances chemosensitivity in an E2F1-dependent manner. Nutlin-3a therefore may provide a therapeutic benefit in tumors with mutant p53 provided it is combined with chemotherapy.
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PMID:Mouse double minute antagonist Nutlin-3a enhances chemotherapy-induced apoptosis in cancer cells with mutant p53 by activating E2F1. 1714 34

The Mdm2 oncoprotein is an E3 ubiquitin ligase required to maintain the p53 protein at low levels in embryonic and adult tissues. It also contributes to tumor formation by antagonizing p53 tumor suppressor activity when amplified and/or overexpressed. p53-independent role for Mdm2 has been suggested by transfection studies. Among the growing list of putative Mdm2-regulated proteins are several proteins playing a key role in the control of cell proliferation such as pRb, E2F1/DP1, Numb, Smads, Lats2 or IGF-1R. Consistent with the ability of Mdm2 to promote ubiquitylation and proteasome destruction of IGFR-I independently of p53, we show herein that loss of Mdm2 leads to a significant increase in IGF1-R-beta protein levels both in cells lacking or expressing p53. Interestingly, IGF-1 protects cells from DNA-damage-induced apoptosis only in absence of Mdm2. These data therefore further highlight a physiological role for Mdm2 in the control of IGF1 signalling and provide genetic evidence for a p53-independent proapoptotic function of Mdm2.
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PMID:Mdm2 exerts pro-apoptotic activities by antagonizing insulin-like growth factor-I-mediated survival. 1880 3

JWA was recently demonstrated to be involved in cellular responses to environmental stress including oxidative stress. Although it was found that JWA protected cells from reactive oxygen species-induced DNA damage, upregulated base excision repair (BER) protein XRCC1 and downregulated PARP-1, the molecular mechanism of JWA in regulating the repair of DNA single-strand breaks (SSBs) is still unclear. Our present studies demonstrated that a reduction in JWA protein levels in cells resulted in a decrease of SSB repair capacity and hypersensitivity to DNA-damaging agents such as methyl methanesulfonate and hydrogen peroxide. JWA functioned as a repair protein by multi-interaction with XRCC1. On the one hand, JWA was translocated into the nucleus by the carrier protein XRCC1 and co-localized with XRCC1 foci after oxidative DNA damage. On the other hand, JWA via MAPK signaling pathway regulated nuclear factor E2F1, which further transcriptionally regulated XRCC1. In addition, JWA protected XRCC1 protein from ubiquitination and degradation by proteasome. These findings indicate that JWA may serve as a novel regulator of XRCC1 in the BER protein complex to facilitate the repair of DNA SSBs.
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PMID:JWA regulates XRCC1 and functions as a novel base excision repair protein in oxidative-stress-induced DNA single-strand breaks. 1920 35

The expression of tumor suppressor p73 is regulated at mRNA and protein levels. It has been shown that E2F1 acts as a transcriptional activator for p73. In this study, we have found that deregulated expression of E2F1 increases the mRNA level of p73, however, E2F1 promotes the degradation of p73. Immunoprecipitation experiments demonstrated that E2F1 forms a complex with p73 and inhibits the transcriptional activity of p73. Enforced expression of E2F1 induces degradation of p73 in a proteasome-independent manner. Additionally, the deletion analysis showed that E2F1(1-117) has an undetectable effect on p73, whereas E2F1(1-285) and E2F1(1-414) have an ability to promote degradation of p73 and inhibition of p73 transcriptional activity, suggesting that the region of E2F1 between amino acid residues 118 and 285 has a critical role in the regulation of p73. Taken together, our present study indicates that E2F1 has a dual role in the regulation of p73.
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PMID:Deregulated expression of E2F1 promotes proteolytic degradation of tumor suppressor p73 and inhibits its transcriptional activity. 1957 72

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