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)

Proteasome-mediated protein degradation has been implicated in playing a role in nuclear receptor-mediated gene expression; inhibition of the proteasome impairs the transcriptional activity of estrogen receptor alpha (ERalpha) and most other nuclear receptors. This coincides with blockage of agonist-dependent degradation of the receptor and elevation of the steady-state levels of SRC family coactivators and CBP. Here, we examined the effects that different ERalpha ligands have on coactivator protein steady-state levels and demonstrate that the selective ER modulators (SERMs) 4-hydroxytamoxifen (4HT) and raloxifene are able to elevate SRC-1 and SRC-3 protein levels. Using the HeLa cell line, we show that this effect is ERalpha dependent. Consistent with the observed increase in coactivator protein levels, we were also able to observe an increase in the transcriptional activity of other nuclear receptors in SERM-treated cells. Information presented here demonstrates an unexpected consequence of SERM treatment, which could help further define the complex tissue responses to 4HT and raloxifene, and suggests that these ligands can have a broad biological action, stimulating the transcriptional activity of other nuclear receptors.
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PMID:Selective estrogen receptor modulators 4-hydroxytamoxifen and raloxifene impact the stability and function of SRC-1 and SRC-3 coactivator proteins. 1467 39

Destruction of intact cellular proteins is largely orchestrated by ATP-dependent ubiquitination and subsequent degradation by the 26S proteasome. The REG-20S proteasome, however, only degrades short peptides. In this issue of Cell, challenge this notion by revealing that the proteasomal activator REGgamma directs degradation of the steroid receptor coactivator SRC-3 by the 20S proteasome in an ATP- and ubiquitin-independent manner.
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PMID:REGgamma: a shortcut to destruction. 1643 11

Steroid receptor coactivator-3 (SRC-3/AIB1) is an oncogene frequently amplified and overexpressed in breast cancers. Here we report that SRC-3 interacts with REGgamma, a proteasome activator known to stimulate the trypsin-like activity of the 20S proteasome. RNAi knockdown and gain-of-function experiments suggest that REGgamma promotes SRC-3 protein degradation. Cellular levels of REGgamma expression affect estrogen-receptor target-gene expression and cell growth as a result of its ability to promote degradation of the SRC-3 protein. In vitro proteasome proteolysis assays using purified REGgamma, SRC-3, and the 20S proteasome reinforce these conclusions and demonstrate that REGgamma promotes the degradation of SRC-3 in a ubiquitin- and ATP-independent manner. This work demonstrates the first example of a physiologically relevant endogenous cellular target for the REGgamma-proteasome complex. It also highlights the fact that an alternative mode of proteasome-mediated protein degradation, independent of the 19S proteasome regulatory cap, targets the SRC-3 protein for degradation.
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PMID:The SRC-3/AIB1 coactivator is degraded in a ubiquitin- and ATP-independent manner by the REGgamma proteasome. 1643 99

SRC-3/AIB1/ACTR/pCIP/RAC3/TRAM-1 is a primary transcriptional coactivator for the estrogen receptor. Here we report that deletion of the SRC-3 basic helix-loop-helix (bHLH) domain blocks its proteasome-dependent turnover. We further identified two residues (K17 and R18) in the SRC-3 bHLH domain that are essential for its stability. Moreover, we found that the bHLH domain contains a bipartite nuclear localization signal (NLS). SRC-3 NLS mutants block its translocation into the nucleus, and this correlates with its insensitivity to proteasome-dependent turnover. SRC-3 shows a time-dependent decay in the presence of cycloheximide which is not apparent for the cytoplasmic mutant. Fusion of a simian virus 40 T antigen NLS to the cytoplasmic localized SRC-3 mutant drives it back into the nucleus and restores its proteasomal sensitivity. In addition, the cytoplasmic mutants are inactive for transcriptional coactivation and cancer cell growth. Taken together, our data indicate that proteasome-dependent turnover of SRC-3 occurs in the nucleus and that two amino acid residues in the bHLH domain provide a signal for its nuclear localization and proteasome-dependent degradation as well as for regulation of SRC-3 transcriptional coactivator capacity.
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PMID:Specific amino acid residues in the basic helix-loop-helix domain of SRC-3 are essential for its nuclear localization and proteasome-dependent turnover. 1715 32

We previously demonstrated that the proteasome activator REGgamma directs degradation of the steroid receptor coactivator SRC-3 by the 20S proteasome in an ATP- and ubiquitin-independent manner. Our efforts to identify additional endogenous direct targets of the REGgamma proteasome revealed that p21(Waf/Cip1), a central cyclin-dependent kinase inhibitor, is another endogenous target. Gain-of-function analysis, RNAi knockdown, REGgamma-deficient MEF analysis, and pulse-chase experiments substantiate that REGgamma promotes degradation of unbound p21. Cell-free proteasome proteolysis assays using purified REGgamma, p21, and the 20S proteasome confirm that REGgamma directly mediates degradation of free p21 in an ATP- and ubiquitin-independent manner. Depletion of REGgamma in a thyroid carcinoma cell line results in cell-cycle and proliferative alterations. Our study reveals that, in addition to degrading the SRC-3 growth coactivator, REGgamma also has a role in the regulation of the cell cycle through its ability to influence the level of a cell-cycle regulator(s).
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PMID:Ubiquitin- and ATP-independent proteolytic turnover of p21 by the REGgamma-proteasome pathway. 1758 18

SRC-3/AIB1 is a steroid receptor coactivator with potent growth-promoting activity, and its overexpression is sufficient to induce tumorigenesis. Previous studies indicate that the cellular level of SRC-3 is tightly regulated by both ubiquitin-dependent and ubiquitin-independent proteasomal degradation pathways. Atypical protein kinase C (aPKC) is frequently overexpressed in cancers. In the present study, we show that aPKC phosphorylates and specifically stabilizes SRC-3 in a selective ER-dependent manner. We further demonstrate that an acidic residue-rich region in SRC-3 is an important determinant for aPKC-mediated phosphorylation and stabilization. The mechanism of the aPKC-mediated stabilization appears due to a decreased interaction between SRC-3 and the C8 subunit of the 20S core proteasome, thus preventing SRC-3 degradation. Our results demonstrate a potent signaling mechanism for regulating SRC-3 levels in cells by coordinate enzymatic inhibition of both ubiquitin-dependent and ubiquitin-independent proteolytic pathways.
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PMID:Atypical protein kinase C regulates dual pathways for degradation of the oncogenic coactivator SRC-3/AIB1. 1831 84

Steroid receptor coactivators (SRCs), such as glucocorticoid receptor interacting protein 1 (GRIP1) are recruited to the DNA-bound nuclear receptors (NRs) and are also shown to enhance the gene transactivation by other transcription factors. In contrast to the two other members of the SRC family, SRC-1 and SRC-3/amplified in breast cancer 1, SRC-2/GRIP1 is regulated by the cAMP-dependent protein kinase [protein kinase A (PKA)] that stimulates its ubiquitination and degradation. In this report we demonstrate that COS-1 and MCF-7 cells treated with cAMP-elevating agents and 8-para-chlorophenylthio-cAMP for short periods of time showed an increase in GRIP1 coactivator function, whereas prolonged stimulation of the cAMP/PKA pathway led to a decline in GRIP1-mediated activation and protein levels. Furthermore, MCF-7 breast cancer cells were subjected to chromatin immunoprecipitation assays after stimulation of the cAMP/PKA pathway. cAMP/PKA initiated a rapid recruitment of GRIP1 to the endogenous estrogen receptor (ER)-alpha target pS2 gene promoter. In contrast to the estradiol-induced recruitment of GRIP1 to pS2, we observed an additional increase in GRIP1 recruitment on inhibition of the proteasome, suggesting that inhibition of GRIP1 degradation leads to accumulation at the pS2. Real-time PCR experiments confirmed that cAMP/PKA enhanced the expression of pS2. Moreover, confocal imaging of COS-1 cells transfected with yellow fluorescent protein-GRIP1 and cyan fluorescent protein-ERalpha revealed that PKA led to redistribution and colocalization of yellow fluorescent protein-GRIP1 and cyan fluorescent protein-ERalpha in subnuclear foci. In conclusion, these results suggest that activation of the cAMP/PKA pathway stimulates recruitment of GRIP1 to an ER-responsive gene promoter. The initial stimulation of GRIP1 coactivator function is followed by an increased turnover and subsequent degradation of GRIP1 protein.
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PMID:Recruitment of coactivator glucocorticoid receptor interacting protein 1 to an estrogen receptor transcription complex is regulated by the 3',5'-cyclic adenosine 5'-monophosphate-dependent protein kinase. 1849 56

The transcriptional coactivator AIB1 is an oncogene overexpressed in different types of tumors, including breast cancer. Although the subcellular compartimentalization of AIB1 seems to be intimately linked to abnormal proliferation, the molecular mechanisms that regulate its subcellular distribution are not well defined. Here, we report that the nuclear accumulation and half-life of AIB1 vary between cancer cell lines. Using these differences as an experimental model, our results reveal that alterations to the Akt signaling pathway and nuclear export determine the stability of AIB1 and nuclear content of this coactivator. Moreover, our results show that AIB1 is degraded in the nucleus by the proteasome in an ubiquitin-dependent manner. However, this process does not require phosphorylation by GSK3, thereby revealing an alternative mechanism for regulating the turnover of AIB1. We define a new region at the carboxy terminus of AIB1 that is required for proteasome-dependent transcriptional activation and is preceded by a PEST domain that is required for adequate protein turnover. Based on differences in Akt signaling and the subcellular distribution of AIB1 between different cell lines, our results suggest that dysregulation of nuclear shuttling and proteasomal degradation may modulate the oncogenic potential of AIB1.
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PMID:Phosphoinositide 3-kinase/AKT signaling can promote AIB1 stability independently of GSK3 phosphorylation. 1859 48

REGgamma, a member of the 11S proteasome activators, has been shown to bind and activate the 20S proteasome to promote proteasome-dependent degradation of important regulatory proteins, such as SRC-3 and cyclin-dependent kinase inhibitors p21, p16, and p19, in a ubiquitin- and ATP-independent manner. Furthermore, REGgamma has been shown to facilitate the turnover of tumor suppressor p53 by promoting MDM2-mediated p53 ubiquitination. The discovery that REGgamma regulates cell-cycle regulators is consistent with previous studies where REGgamma-deficient mice have shown retardation in body growth, decreased cell proliferation and increased apoptosis, indicating a potential role of REGgamma in cancer development. Additionally, REGgamma's ability to promote viral protein degradation suggests its involvement in viral pathogenesis. This review presents an overview of the function of REGgamma, a summary of the current literature, and insight into the possible biological function of REGgamma relating to cancer, viral pathogenesis, and other diseases.
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PMID:REGgamma, a proteasome activator and beyond? 1867 78

SRC-3/AIB1 is a master growth coactivator and oncogene, and phosphorylation activates it into a powerful coregulator. Dephosphorylation is a potential regulatory mechanism for SRC-3 function, but the identity of such phosphatases remains unexplored. Herein, we report that, using functional genomic screening of human Ser/Thr phosphatases targeting SRC-3's known phosphorylation sites, the phosphatases PDXP, PP1, and PP2A were identified to be key negative regulators of SRC-3 transcriptional coregulatory activity in steroid receptor signalings. PDXP and PP2A dephosphorylate SRC-3 and inhibit its ligand-dependent association with estrogen receptor. PP1 stabilizes SRC-3 protein by blocking its proteasome-dependent turnover through dephosphorylation of two previously unidentified phosphorylation sites (Ser101 and S102) required for activity. These two sites are located within a degron of SRC-3 and are primary determinants of SRC-3 turnover. Moreover, PP1 regulates the oncogenic cell proliferation and invasion functions of SRC-3 in breast cancer cells.
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PMID:Essential phosphatases and a phospho-degron are critical for regulation of SRC-3/AIB1 coactivator function and turnover. 1892 67

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