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)

In acute promyelocytic leukaemia (APL), arsenic trioxide induces degradation of the fusion protein encoded by the PML-RARA oncogene, differentiation of leukaemic cells and produces clinical remissions. SUMOylation of its PML moiety was previously implicated, but the nature of the degradation pathway involved and the role of PML-RARalpha catabolism in the response to therapy have both remained elusive. Here, we demonstrate that arsenic-induced PML SUMOylation triggers its Lys 48-linked polyubiquitination and proteasome-dependent degradation. When exposed to arsenic, SUMOylated PML recruits RNF4, the human orthologue of the yeast SUMO-dependent E3 ubiquitin-ligase, as well as ubiquitin and proteasomes onto PML nuclear bodies. Arsenic-induced differentiation is impaired in cells transformed by a non-degradable PML-RARalpha SUMOylation mutant or in APL cells transduced with a dominant-negative RNF4, directly implicating PML-RARalpha catabolism in the therapeutic response. We thus identify PML as the first protein degraded by SUMO-dependent polyubiquitination. As PML SUMOylation recruits not only RNF4, ubiquitin and proteasomes, but also many SUMOylated proteins onto PML nuclear bodies, these domains could physically integrate the SUMOylation, ubiquitination and degradation pathways.
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PMID:Arsenic degrades PML or PML-RARalpha through a SUMO-triggered RNF4/ubiquitin-mediated pathway. 1845 29

The HMGA2 architectural protein functions in a variety of cellular processes, such as cell growth, transcription regulation, neoplastic transformation, and progression. Up-regulation of HMGA2 protein is observed in many tumors and is associated with advanced cancers with poor prognoses. Although the expression and biochemical properties of HMGA2 protein are regulated by microRNA and phosphorylation, it is unknown whether HMGA2 activity can also be regulated by SUMOylation, and that is what is investigated in this report. We identified HMGA2 as a SUMOylation target and showed that the expression of wild-type HMGA2, but not SUMOylation-defective HMGA2(2K/R), selectively lowered the steady-state level of PML protein. Consequently, the HMGA2-elicited PML down-regulation rendered a reduction in the average number of PML nuclear bodies per cell and the volume of PML assembled per PML nuclear body. Using small interfering RNA to suppress endogenous ubiquitin expression and proteasome inhibitor to repress ubiquitin-mediated protein degradation, we showed that HMGA2 confers PML down-regulation through ubiquitin-proteasome-dependent protein degradation. Importantly, arsenic trioxide treatment stimulated HMGA2 SUMOylation, leading to the formation of HMGA2 nuclear foci surrounding PML nuclear bodies and the stimulation of PML degradation. Collectively, our results unveil a previously unrecognized effect by HMGA2 on the modulation of PML protein level, providing a novel mechanism underlying HMGA2 function and underscoring the molecular basis for oncogenic progression by HMGA2.
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PMID:SUMOylation of HMGA2: selective destabilization of promyelocytic leukemia protein via proteasome. 1841 6

Chfr is a checkpoint protein that plays an important function in cell cycle progression and tumor suppression, although its exact role and regulation are unclear. Previous studies have utilized overexpression of Chfr to determine the signaling pathway of this protein in vivo. In this study, we demonstrate, by using three different antibodies against Chfr, that the endogenous and highly overexpressed ectopic Chfr protein is localized and regulated differently in cells. Endogenous and lowly expressed ectopic Chfr are cytoplasmic and localize to the spindle during mitosis. Higher expression of ectopic Chfr correlates with a shift in the localization of this protein to the nucleus/PML bodies, and with a block of cell proliferation. In addition, endogenous and lowly expressed ectopic Chfr is stable throughout the cell cycle, whereas when highly expressed, ectopic Chfr is actively degraded during S-G2/M phases in an autoubiquitination and proteasome-dependent manner. A two-hybrid screen identified TCTP as a possible Chfr-interacting partner. Biochemical analysis with the endogenous proteins confirmed this interaction and identified beta-tubulin as an additional partner for Chfr, supporting the mitotic spindle localization of Chfr. The Chfr-TCTP interaction was stable throughout the cell cycle, but it could be diminished by the complete depolymerization of the microtubules, providing a possible mechanism where Chfr could be the sensor that detects microtubule disruption and then activates the prophase checkpoint.
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PMID:Chfr interacts and colocalizes with TCTP to the mitotic spindle. 1850 34

Promyelocytic Leukemia nuclear body (PML NB) proteins mediate an intrinsic cellular host defense response against virus infections. Herpesviruses express proteins that modulate PML or PML-associated proteins by a variety of strategies, including degradation of PML or relocalization of PML NB proteins. The consequences of PML-herpesvirus interactions during infection in vivo have yet to be investigated in detail, largely because of the species-specific tropism of many human herpesviruses. Murine gammaherpesvirus 68 (gammaHV68) is emerging as a suitable model to study basic biological questions of virus-host interactions because it naturally infects mice. Therefore, we sought to determine whether gammaHV68 targets PML NBs as part of its natural life cycle. We found that gammaHV68 induces PML degradation through a proteasome-dependent mechanism and that loss of PML results in more robust virus replication in mouse fibroblasts. Surprisingly, gammaHV68-mediated PML degradation was mediated by the virion tegument protein ORF75c, which shares homology with the cellular formylglycinamide ribotide amidotransferase enzyme. In addition, we show that ORF75c is essential for production of infectious virus. ORF75 homologs are conserved in all rhadinoviruses but so far have no assigned functions. Our studies shed light on a potential role for this unusual protein in rhadinovirus biology and suggest that gammaHV68 will be a useful model for investigation of PML-herpesvirus interactions in vivo.
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PMID:Murine gammaherpesvirus 68 open reading frame 75c tegument protein induces the degradation of PML and is essential for production of infectious virus. 1850 1

The PML tumor suppressor controls growth suppression, induction of apoptosis, and cellular senescence. PML loss occurs frequently in hematopoietic and solid tumors. PML loss often correlates with tumor progression. Casein kinase 2 (CK2) is a stress-activated serine/threonine protein kinase that is oncogenic and frequently overexpressed in human tumor of multiple histological origins. In addition, CK2 overexpression due to gene amplification has been reported to be an adverse prognostic factor in non-small cell lung cancer. At the 5th International Conference on Protein Kinase CK2 in Padova, Italy, we reviewed our recent findings that PML undergoes ubiquitin/proteasome-mediated degradation in immortalized and tumor derived cell lines. PML degradation depends on direct CK2 phosphorylation of PML Ser517. PML mutants that are resistant to CK2 phosphorylation display increased tumor suppressive functions in assays measuring apoptosis, replicative senescence, and in xenograft models. More significantly, CK2 pharmacological inhibition enhances PML tumor suppressive property. These data identify a key post-translational mechanism that controls PML protein levels in cancer cells and suggest that CK2 inhibitors may be beneficial anti-cancer drugs.
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PMID:CK2 mediates phosphorylation and ubiquitin-mediated degradation of the PML tumor suppressor. 1856 54

PML, a nuclear protein, interacts with several transcription factors and their coactivators, such as HIPK2 and p300, resulting in the activation of transcription. Although PML is thought to achieve transcription activation by stabilizing the transcription factor complex, little is known about the underlying molecular mechanism. To clarify the role of PML in transcription regulation, we purified the PML complex and identified Fbxo3 (Fbx3), Skp1, and Cullin1 as novel components of this complex. Fbx3 formed SCF(Fbx3) ubiquitin ligase and promoted the degradation of HIPK2 and p300 by the ubiquitin-proteasome pathway. PML inhibited this degradation through a mechanism that unexpectedly did not involve inhibition of the ubiquitination of HIPK2. PML, Fbx3, and HIPK2 synergistically activated p53-induced transcription. Our findings suggest that PML stabilizes the transcription factor complex by protecting HIPK2 and p300 from SCF(Fbx3)-induced degradation until transcription is completed. In contrast, the leukemia-associated fusion PML-RARalpha induced the degradation of HIPK2. We discuss the roles of PML and PML-retinoic acid receptor alpha, as well as those of HIPK2 and p300 ubiquitination, in transcriptional regulation and leukemogenesis.
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PMID:PML activates transcription by protecting HIPK2 and p300 from SCFFbx3-mediated degradation. 1880 79

Transcriptional coactivator CBP is involved in the regulation of an array of biological processes including cellular differentiation, proliferation and survival. The function of CBP is critical for proper embryonic development and is relevant in cancer biology. Although much is known about the functional roles of CBP in these cellular processes, fewer studies have assessed what in turn regulates CBP activity per se. It has been reported that CBP colocalizes with PML bodies which are nuclear structures disrupted in acute promyelocytic leukemia. However, the biological relevance of CBP localization to PML nuclear bodies is still unclear. In this study, we demonstrate that histone deacetylase inhibitors such as valproic acid, a therapeutically relevant compound used for the treatment of epilepsy, modulates CBP activity. Valproic acid reduces the steady-state level of CBP by inducing CBP degradation through the ubiquitin-proteasome pathway, while increasing the colocalization of CBP with ubiquitin nuclear speckles and with PML nuclear bodies. Our results suggest that PML nuclear bodies are nuclear sites involved in the ubiquitin-dependent degradation of CBP, providing novel insights in the regulation of CBP function and highlighting the relevance of its localization to PML nuclear bodies.
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PMID:Involvement of PML nuclear bodies in CBP degradation through the ubiquitin-proteasome pathway. 1901 77

The peptidyl-prolyl-isomerase Pin1 interacts with phosphorylated proteins, altering their conformation. The retinoic acid receptor RARalpha and the acute-promyelocytic-leukemia-specific counterpart PML-RARalpha directly interact with Pin1. Overexpression of Pin1 inhibits ligand-dependent activation of RARalpha and PML-RARalpha. Inhibition is relieved by Pin1-targeted short interfering RNAs and by pharmacologic inhibition of the catalytic activity of the protein. Mutants of Pin1 catalytically inactive or defective for client-protein-binding activity are incapable of inhibiting ligand-dependent RARalpha transcriptional activity. Functional inhibition of RARalpha and PML-RARalpha by Pin1 correlates with degradation of the nuclear receptors via the proteasome-dependent pathway. In the acute myelogenous leukemia cell lines HL-60 and NB4, Pin1 interacts with RARalpha in a constitutive fashion. Suppression of Pin1 by a specific short hairpin RNA in HL-60 or NB4 cells stabilizes RARalpha and PML-RARalpha, resulting in increased sensitivity to the cytodifferentiating and antiproliferative activities of all-trans retinoic acid. Treatment of the two cell lines and freshly isolated acute myelogenous leukemia blasts (M1 to M4) with ATRA and a pharmacologic inhibitor of Pin1 causes similar effects. Our results add a further layer of complexity to the regulation of nuclear retinoic acid receptors and suggest that Pin1 represents an important target for strategies aimed at increasing the therapeutic index of retinoids.
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PMID:Inhibition of the peptidyl-prolyl-isomerase Pin1 enhances the responses of acute myeloid leukemia cells to retinoic acid via stabilization of RARalpha and PML-RARalpha. 1915 6

The low molecular weight compound, PRIMA-1MET restores the transcriptional transactivation function of certain p53 mutants in tumor cells. We have previously shown that PRIMA-1MET induces nucleolar translocation of p53, PML, CBP and Hsp70. The Epstein-Barr virus encoded, latency associated antigen EBNA-5 (also known as EBNA-LP) is required for the efficient transformation of human B lymphocytes by EBV. EBNA-5 associates with p53-hMDM2-p14ARF complexes. EBNA-5 is a nuclear protein that translocates to the nucleolus upon heat shock or inhibition of proteasomes along with p53, hMDM2, Hsp70, PML and proteasome subunits. Here we show that PRIMA-1MET induces the nucleolar translocation of EBNA-5 in EBV transformed B lymphoblasts and in transfected tumor cells. The PRIMA-1MET induced translocation of EBNA-5 is not dependent on the presence of mutant p53. It also occurs in p53 null cells or in cells that express wild type p53. Both the native and the EGFP or DSRed conjugated EBNA-5 respond to PRIMA-1MET treatment in the same way. Image analysis of DSRed-EBNA-5 expressing cells, using confocal fluorescence time-lapse microscopy showed that the nucleolar translocation requires several hours to complete. FRAP (fluorescence recovery after photobleaching) and FLIP (fluorescence loss in photobleaching) measurements on live cells showed that the nucleolar translocation was accompanied by the formation of EBNA-5 aggregates. The process is reversible since the aggregates are dissolved upon removal of PRIMA-1MET. Our results suggest that mutant p53 is not the sole target of PRIMA-1MET. We propose that PRIMA-1MET may reversibly inhibit cellular chaperons that prevent the aggregation of misfolded proteins, and that EBNA-5 may serve as a surrogate drug target for elucidating the precise molecular action of PRIMA-1MET.
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PMID:PRIMA-1MET induces nucleolar translocation of Epstein-Barr virus-encoded EBNA-5 protein. 1932 29

This study was aimed to explore the correlation between effects of arsenic trioxide on NB4 cell differentiation and the change of beta(1)-subunit of 26S proteasome. NB4 cell in 0.5 micromol/L As(2)O(3) was incubated for 24 hours and 48 hours, then total protein was extracted, expressions of subunit beta(1) and PML-RARalpha fusion protein were determined by Western blot. The results indicated that the expression of 26S proteasome beta(1)-subunit increased after incubation with As(2)O(3) for 24 hours, but after culture with As(2)O(3) for 48 hours, the expression of beta-subunit decreased to the baseline. Meanwhile, the expression of PML-RARalpha fusion protein obviously decreased after 24 hours, and kept low level at 48 hours. It is concluded that the expression of 26S proteasome beta(1)-subunit increases after exposure to As(2)O(3). Increment of 26S proteasome beta(1)-subunit may be associated with the degradation of PML-RARalpha fusion protein and plays roles in the differentiation and apoptosis of NB4 cells.
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PMID:[Influence of As(2)O(3) on proteasome beta(1)-subunit in NB4 cells]. 1954 67


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