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)

Rad23 is an evolutionarily conserved protein that is important for nucleotide excision repair. A regulatory role has been proposed for Rad23 because rad23 mutants are sensitive to ultraviolet light but are still capable of incising damaged DNA. Here we show that Rad23 interacts with the 26S proteasome through an amino-terminal ubiquitin-like domain (UbL[R23]). The carboxy terminus of Rad23 binds to the Rad4 DNA repair protein and creates a link between the DNA repair and proteasome pathways. The ultraviolet sensitivity caused by deletion of the UbL(R23) domain may therefore arise from its inability to interact with the proteasome. The fusion proteins glutathione S-transferase (GST)-Rad23 and Rad4-haemagglutinin (HA), and the proteasome subunits Cim3 and Cim5, cofractionate through consecutive chromatography steps. The ubiquitin-like domain of human Rad23 (UbL[HRB]) also interacts with the human proteasome. These results demonstrate that ubiquitin-like domains (UbLs) represent a new class of proteasome-interacting motifs.
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PMID:Rad23 links DNA repair to the ubiquitin/proteasome pathway. 949 Apr 18

This study demonstrates in both stable and inducible BCR-ABL-expressing hematopoietic cells a down-regulation of the major mammalian DNA repair protein DNA-PKcs by BCR-ABL. Similar results were found in BCR-ABL CD34(+) cells from patients with chronic myelogenous leukemia (CML). DNA-PKcs down-regulation is a proteasome-dependent degradation that requires tyrosine kinase activity and is associated with a marked DNA repair deficiency along with increased sensitivity to ionizing radiation. The conjunction of a major DNA repair deficiency and a resistance to apoptosis, both induced by BCR-ABL, provides a new mechanism to explain how secondary genetic alterations can accumulate in CML, eventually leading to blast crisis. The down-regulation of DNA-PKcs was reversible in CD34(+) CML cells suggesting that this approach might offer a novel and powerful therapeutic strategy in this disease, especially to delay the blast crisis. (Blood. 2001;97:2084-2090)
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PMID:BCR-ABL down-regulates the DNA repair protein DNA-PKcs. 1126 75

Rad23 is a DNA repair protein that promotes the assembly of the nucleotide excision repair complex. Rad23 can interact with the 26S proteasome through an N-terminal ubiquitin-like domain, and inhibits the assembly of substrate-linked multi-ubiquitin (multi-Ub) chains in vitro and in vivo. Significantly, Rad23 can bind a proteolytic substrate that is conjugated to a few ubiquitin (Ub) moieties. We report here that two ubiquitin-associated (UBA) domains in Rad23 form non-covalent interactions with Ub. A mutant that lacked either UBA sequence was capable of blocking the assembly of substrate-linked multi-Ub chains, although a mutant that lacked both UBA domains was significantly impaired. These studies suggest that the interaction with Ub is required for Rad23 activity, and that other UBA-containing proteins may have a similar function.
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PMID:Ubiquitin-associated (UBA) domains in Rad23 bind ubiquitin and promote inhibition of multi-ubiquitin chain assembly. 1157 Dec 71

Poly-ubiquitination, the post-translational covalent conjugation of isopeptide-linked chains of ubiquitin to other target proteins, is the central signal for proteolytic degradation by the 26S proteasome complex. The S5a subunit of the 26S proteasome binds poly-ubiquitin chains containing four or more ubiquitins. We have used an immobilised glutathione-S-transferase (GST)-S5a fusion protein to purify poly-ubiquitinated proteins from mammalian tissues, with the intention of expanding the repertoire of known substrates of the ubiquitin pathway. A complex mixture of poly-ubiquitinated proteins was successfully purified from normal pig brain extract following induction of in vitro ubiquitination. Western blots of two-dimensional gels of this mixture showed at least two diagonal series of ubiquitin-positive spots. Individual spots in each series were separated by approximately 9 kDa suggesting that they represent poly-ubiquitinated proteins with increasing numbers of ubiquitins in the chains. S5a-binding proteins purified from ubiquitination-induced human placental extracts, resolved by sodium dodecyl sulfate polyacrylamide gel electrophoresis and visualised by Coomassie staining, contained a single major species with an apparent denatured molecular mass of approximately 60 kDa. Edman degradation identified this protein as hHR23B, a human homologue of the Saccharomyces cerevisiae DNA repair protein Rad23p. In this case hHR23B is not ubiquitinated but instead contains an intrinsic ubiquitin-like domain at its N-terminus, through which it interacts with S5a (Hiyama, H., et al., J Biol. Chem. 1999, 274, 28,019-28,025).
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PMID:Purification of poly-ubiquitinated proteins by S5a-affinity chromatography. 1167 84

Treatment of cells with genotoxic agents affects protein degradation in both positive and negative ways. Exposure of S. cerevisiae to the alkylating agent MMS resulted in activation of genes that are involved in ubiquitin- and 26S proteasome-dependent protein degradation. This process partially overlaps with the activation of the ER-associated protein degradation pathway. The DNA repair protein Rad23p and its mammalian homologues have been shown to inhibit degradation of specific substrates in response to DNA damage. Particularly the recently identified inhibition of degradation by mouse Rad23 protein (mHR23) of the associated nucleotide excision repair protein XPC was shown to stimulate DNA repair.Recently, it was shown that Rad23p and the mouse homologue mHR23B also associate with Png1p, a deglycosylation enzyme. Png1p-mediated deglycosylation plays a role in ER-associated protein degradation after accumulation of malfolded proteins in the endoplasmic reticulum. Thus, if stabilization of proteins that are associated with the C-terminus of Rad23p is a general phenomenon, then Rad23 might be implicated in the stimulation of ER-associated protein degradation as well. Interestingly, the recently identified HHR23-like protein Mif1 is also thought to play a role in ER-associated protein degradation. The MIF1 gene is strongly activated in response to ER-stress. Mif1 contains a ubiquitin-like domain which is most probably involved in binding to S5a, a subunit of the 19S regulatory complex of the 26S proteasome. On the basis of its localization in the ER-membrane, it is hypothesized that Mif1 could play a role in the translocation of the 26S proteasome towards the ER-membrane, thereby enhancing ER-associated protein degradation.
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PMID:A role for Rad23 proteins in 26S proteasome-dependent protein degradation? 1180 4

A cytoplasmic peptide:N-glycanase has been implicated in the proteasomal degradation of newly synthesized misfolded glycoproteins exported from the endoplasmic reticulum. The gene encoding this enzyme (Png1p) has been identified in yeast. Based on sequence analysis, Png1p was classified as a member of the 'transglutaminase-like superfamily' that contains a putative catalytic triad of amino acids (cysteine, histidine, and aspartic acid). More recent studies in yeast indicate that Png1p can bind to the 26S proteasome through its interaction with the DNA repair protein Rad23p. A mouse homologue of Png1p (mPng1p) bound not only to the Rad23 protein, but also to various proteins related to ubiquitin and/or the proteasome through an extended amino-terminal domain. This NH2 terminus of mPng1p, which is not found in yeast, contains a PUB domain predicted to be involved in the ubiquitin-related pathway. This review will focus on the primary structure and potential functions of the cytoplasmic PNGases.
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PMID:Cytoplasmic peptide:N-glycanase (PNGase) in eukaryotic cells: occurrence, primary structure, and potential functions. 1197 27

O(6)-Alkylguanine-DNA alkyltransferase (AGT) is a DNA repair protein that removes alkyl groups from DNA by transferring them to an internal Cys-145 residue. As the S-alkylcysteine is not converted back to cysteine, the protein can only act once and the resulting alkylated AGT molecule is rapidly degraded. The mechanism underlying the disappearance of the alkylated AGT has been studied in vivo in CHO cells and in vitro in reticulocyte lysates by using the pseudosubstrate O(6)-benzylguanine (BG) and mutant forms of AGT. The wild-type AGT was stable but was ubiquitinated and degraded rapidly by the proteasome after treatment with BG or with an oligodeoxyribonucleotide, which contained O(6)-methylguanine. Mutants C145F (and other mutants with bulky substituents at position 145), which have alterations that cause a steric alteration at the active site and also prevent hydrogen bonding involving Cys-145 resembled the alkylated AGT and were ubiquitinated and degraded rapidly irrespective of treatment with BG. Mutant M134F, which causes a steric alteration without interfering directly with the hydrogen-bonding network involving Cys-145, partially destabilized AGT and its degradation was increased further by reaction with BG. Mutant C145S, which maintains the hydrogen-binding network and causes no distortion, was not rapidly degraded. The results indicate that the conformational change resulting in the opening of the asparagine hinge region in the structure, which is brought about by formation of an S-alkyl adduct, leads to an increased recognition by a ubiquitin ligase targeting the protein for degradation. This is a novel type of post-translational modification causing ubiquitination.
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PMID:Degradation of the alkylated form of the DNA repair protein, O(6)-alkylguanine-DNA alkyltransferase. 1201 56

Ubiquitin is a prominent regulatory protein in numerous biological processes, including targeted protein degradation, endocytic sorting, transcriptional control, intranuclear localization, and retroviral virion budding. Ubiquitin-associated (UBA) domains, ubiquitin interacting motifs (UIM), and coupling of ubiquitin conjugation to ER degradation (CUE) motifs have been identified as ubiquitin receptors. The DNA repair protein hHR23a has two UBA domains that can each bind ubiquitin in addition to an N-terminal UBL domain that binds S5a and S2, two components of the 26S proteasome. Here we reveal hHR23a recognizes ubiquitin through a predominately hydrophobic surface formed by residues within alpha1 and alpha3 of each of its UBA domains. These two UBA surfaces bind a region on ubiquitin that includes K48. These findings have implications for published studies revealing that hHR23a inhibits K48-linked polyubiquitin chain formation. In addition, by using (15)N NMR relaxation experiments, we find that binding ubiquitin requires a structural change in hHR23a. HHR23 proteins are hypothesized to link ubiquitin to S5a, and we provide direct evidence that hHR23 could form a ternary complex with ubiquitin and S5a.
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PMID:Ubiquitin recognition by the DNA repair protein hHR23a. 1462 99

The stability of the tumor suppressor protein p53 is regulated via the ubiquitin-proteasome-dependent proteolytic pathway. Like most substrates of this pathway, p53 is modified by the attachment of polyubiquitin chains prior to proteasome-mediated degradation. However, the mechanism(s) involved in the delivery of polyubiquitylated p53 molecules to the proteasome are currently unclear. Here, we show that the human DNA repair protein hHR23 binds to polyubiquitylated p53 via its carboxyl-terminal ubiquitin-associated (Uba) domain shielding p53 from deubiquitylation in vitro and in vivo. In addition, downregulation of hHR23 expression within cells by RNA interference results in accumulation of p53. Since the Ubl domain of hHR23 has been shown to interact with the 26S proteasome, we propose that hHR23 is intrinsically involved in the delivery of polyubiquitylated p53 molecules to the proteasome. In this model, the Uba domain of hHR23 binds to polyubiquitin chains formed on p53 and protects them from deubiquitylation, while the Ubl domain delivers the polyubiquitylated p53 molecules to the proteasome.
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PMID:Involvement of the DNA repair protein hHR23 in p53 degradation. 1464 9

Chronic myelogenous leukaemia (CML) is a clonal malignancy of the pluripotent haematopoietic stem cell, characterised by an uncontrolled proliferation and expansion of myeloid progenitors expressing a fusion oncogene, BCR-ABL, the molecular counterpart of the Ph1 chromosome. The tyrosine kinase (TK) activity of BCR-ABL is known to activate several major signalling pathways in malignant cells, including Ras, JAK/STAT and PI3K/Akt with evidence of proteasome-mediated degradation of other targets such as the DNA repair protein DNA-PKcs and cyclin-dependent kinases inhibitor p27. Targeting these abnormalities by blocking TK of BCR-ABL with STI571 provided a promising approach for the therapy of CML. The recent development of resistance to STI571 illustrates, however, that the use of other TK inhibitors could be of major interest for therapeutic purposes. To this end, the TK inhibitor Tyrphostin AG1024 was used to evaluate effect on regulation of BCR-ABL expression, inhibition of cell proliferation and tumour formation in vivo in human and murine BCR-ABL expressing cell lines. Tyrphostin AG1024 was shown to downregulate expression of BCR-ABL and P-Akt, and to upregulate DNA-PKcs expression. In addition, Tyrphostin AG1024 was able to inhibit cell proliferation, and delay tumour growth in vivo. Thus, AG1024 is able to interfere with three major targets of BCR-ABL in leukaemic cells. Interestingly, Tyrphostin AG1024 was also effective against cells resistant to STI571 by distinct mechanisms including Bcr-Abl mutation. Therefore, these data suggest that Tyrphostin AG1024 could represent the basis of a novel therapy for STI571 refractory CML.
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PMID:Tyrosine kinase inhibitor AG1024 exerts antileukaemic effects on STI571-resistant Bcr-Abl expressing cells and decreases AKT phosphorylation. 1549 18

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