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 conformational preferences of a 22-amino acid peptide (LIDRLIERAEDpSGNEpSEGEISA) that mimics the phosphorylated HIV-1-encoded virus protein U (Vpu) antigen have been investigated by NMR spectroscopy. Degradation of HIV receptor CD4 by the proteasome, mediated by the HIV-1 protein Vpu, is crucial for the release of fully infectious virions. Phosphorylation of Vpu at sites Ser52 and Ser56 on the DSGXXS motif is required for the interaction of Vpu with the ubiquitin ligase SCF(beta)(-TrCP) which triggers CD4 degradation by the proteasome. This motif is conserved in several signaling proteins known to be degraded by the proteasome. The interaction of the P-Vpu(41-62) peptide with its monoclonal antibody has been studied by transferred nuclear Overhauser effect NMR spectroscopy (TRNOESY) and saturation transfer difference NMR (STD NMR) spectroscopy. The peptide was found to adopt a bend conformation upon binding to the antibody; the peptide residues (Asp51-pSer56) forming this bend are recognized by the antibody as demonstrated by STD NMR experiments. The three-dimensional structure of P-Vpu(41-62) in the bound conformation was determined by TRNOESY spectra; the peptide adopts a compact structure in the presence of mAb with formation of several bends around Leu45 and Ile46 and around Ile60 and Ser61, with a tight bend created by the DpS(52)GNEpS(56) motif. STD NMR studies provide evidence for the existence of a conformational epitope containing tandem repeats of phosphoserine motifs. The peptide's epitope is predominantly located in the large bend and in the N-terminal segment, implicating bidentale association. These findings are in excellent agreement with a recently published NMR structure required for the interaction of Vpu with the SCF(beta)(-TrCP) protein.
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PMID:Epitope mapping of the phosphorylation motif of the HIV-1 protein Vpu bound to the selective monoclonal antibody using TRNOESY and STD NMR spectroscopy. 1554 26

Beta-Catenin plays an essential role in the Wingless/Wnt signaling cascade. Phosphorylation of beta-Catenin in its N-terminal region by the kinase GSK-3beta is required for the interaction with the SCF-beta-TrCP protein complex that targets beta-Catenin for proteasome degradation. In the present work, we used two peptides of 32 amino acids referred to beta-Cat17-48 and P-beta-Cat17-48 for the phosphorylated peptide at the two sites Ser33 and Ser37. Circular dichroism and NMR techniques were used to assess the influence of the phosphorylation. The spectra of the peptides at pH 7.2 were completely assigned. Analysis of the medium-range NOE connectivities indicated that beta-Cat17-48 seems to be only poorly folded. These data are in agreement with the result of structure calculations. P-beta-Cat17-48 possesses two helical segments around the DpSGXXpS motif, which forms a large bent with the phosphate groups pointing out of the structure. On the contrary, beta-Cat17-48 shows less well-defined secondary structures and appears as a more flexible peptide, but adopts in the motif DSGXXS a more compact conformation than P-beta-Cat17-48. Differences in this molecular region suggest that conformational changes of phosphorylated beta-Catenin play an important role for the interaction with the SCF-beta-TrCP protein complex.
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PMID:Solution structure of a peptide derived from the oncogenic protein beta-Catenin in its phosphorylated and nonphosphorylated states. 1562 34

Three beta-cyclodextrin (beta-CD) conjugates of non-steroidal anti-inflammatory drugs were synthesized by enzymatic methods. Transesterification of beta-CD with vinyl ester of indomethacin, ketoprofen and etodolac was performed by the catalysis of alkaline protease from Bacillus subtilis in anhydrous DMF for 3 days. The drug molecules were selectively conjugated onto one of the secondary hydroxyl groups of beta-CD through ester-linkage to improve their poor water solubility and absorption characteristics. The products were characterized by ESI-MS, (1)H NMR and (13)C NMR. The structures of products with monoacylation occurring at the C-2 secondary hydroxyl groups of beta-CD were confirmed.
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PMID:Regioselective synthesis of cyclodextrin mono-substituted conjugates of non-steroidal anti-inflammatory drugs at C-2 secondary hydroxyl by protease in non-aqueous media. 1586 95

The previously identified dendritic cell-derived ubiquitin-like protein (DC-UbP) was implicated in cellular differentiation and apoptosis. Sequence alignment suggested that it contains a ubiquitin-like (UbL) domain in the C terminus. Here, we present the solution NMR structure and backbone dynamics of the UbL domain of DC-UbP. The overall structure of the domain is very similar to that of Ub despite low similarity (<30%) in amino-acid sequence. One distinct feature of the domain structure is its highly positively charged surface that is different from the corresponding surfaces of the well-known UbL modifiers, Ub, NEDD8, and SUMO-1. The key amino-acid residues responsible for guiding polyubiquitinated proteins to proteasome degradation in Ub are not conserved in the UbL domain. This implies that the UbL domain of DC-UbP may have its own specific interaction partners with other yet unknown cellular functions related to the Ub pathway.
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PMID:Solution structure of the ubiquitin-like domain of human DC-UbP from dendritic cells. 1598 90

Degradation of misfolded and damaged proteins by the 26 S proteasome requires the substrate to be tagged with a polyubiquitin chain. Assembly of polyubiquitin chains and subsequent substrate labeling potentially involves three enzymes, an E1, E2, and E3. E2 proteins are key enzymes and form a thioester intermediate through their catalytic cysteine with the C-terminal glycine (Gly76) of ubiquitin. This thioester intermediate is easily hydrolyzed in vitro and has eluded structural characterization. To overcome this, we have engineered a novel ubiquitin-E2 disulfide-linked complex by mutating Gly76 to Cys76 in ubiquitin. Reaction of Ubc1, an E2 from Saccharomyces cerevisiae, with this mutant ubiquitin resulted in an ubiquitin-E2 disulfide that could be purified and was stable for several weeks. Chemical shift perturbation analysis of the disulfide ubiquitin-Ubc1 complex by NMR spectroscopy reveals an ubiquitin-Ubc1 interface similar to that for the ubiquitin-E2 thioester. In addition to the typical E2 catalytic domain, Ubc1 contains an ubiquitin-associated (UBA) domain, and we have utilized NMR spectroscopy to demonstrate that in this disulfide complex the UBA domain is freely accessible to non-covalently bind a second molecule of ubiquitin. The ability of the Ubc1 to bind two ubiquitin molecules suggests that the UBA domain does not interact with the thioester-bound ubiquitin during polyubiquitin chain formation. Thus, construction of this novel ubiquitin-E2 disulfide provides a method to characterize structurally the first step in polyubiquitin chain assembly by Ubc1 and its related class II enzymes.
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PMID:Ubiquitin manipulation by an E2 conjugating enzyme using a novel covalent intermediate. 1601 32

The Josephin domain plays an important role in the cellular functions of ataxin-3, the protein responsible for the neurodegenerative Machado-Joseph disease. We have determined the solution structure of Josephin and shown that it belongs to the family of papain-like cysteine proteases, sharing the highest degree of structural similarity with bacterial staphopain. A currently unique structural feature of Josephin is a flexible helical hairpin formed by a 32-residue insertion, which could determine substrate specificity. By using the Josephin structure and the availability of NMR chemical shift assignments, we have mapped the enzyme active site by using the typical cysteine protease inhibitors, transepoxysuccinyl-L-eucylamido-4-guanidino-butane (E-64) and [L-3-trans-(propylcarbamyl)oxirane-2-carbonyl]-L-isoleucyl-L-proline (CA-074). We also demonstrate that the specific interaction of Josephin with the ubiquitin-like domain of the ubiquitin- and proteasome-binding factor HHR23B involves complementary exposed hydrophobic surfaces. The structural similarity with other deubiquitinating enzymes suggests a model for the proteolytic enzymatic activity of ataxin-3.
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PMID:The solution structure of the Josephin domain of ataxin-3: structural determinants for molecular recognition. 1602 May 35

Spinocerebellar ataxia type 3 is a human neurodegenerative disease resulting from polyglutamine tract expansion. The affected protein, ataxin-3, which contains an N-terminal Josephin domain followed by tandem ubiquitin (Ub)-interacting motifs (UIMs) and a polyglutamine stretch, has been implicated in the function of the Ub proteasome system. NMR-based structural analysis has now revealed that the Josephin domain binds Ub and has a papain-like fold that is reminiscent of that of other deubiquitinases, despite primary sequence divergence but consistent with its deubiqutinating activity. Mutation of the catalytic Cys enhances the stability of a complex between ataxin-3 and polyubiquitinated proteins. This effect depends on the integrity of the UIM region, suggesting that the UIMs are bound to the substrate polyubiquitin during catalysis. We propose that ataxin-3 functions as a polyubiquitin chain-editing enzyme.
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PMID:Deubiquitinating function of ataxin-3: insights from the solution structure of the Josephin domain. 1611 78

Antizyme and its isoforms are members of an unusual yet broadly conserved family of proteins, with roles in regulating polyamine levels within cells. Antizyme has the ability to bind and inhibit the enzyme ornithine decarboxylase (ODC), targeting it for degradation at the proteasome; antizyme is also known to affect the transport of polyamines and interact with the antizyme inhibitor protein (AZI), as well as the cell-cycle protein cyclin D1. In the present work, NMR methods were used to determine the solution structure of a stable, folded domain of mammalian antizyme isoform-1 (AZ-1), consisting of amino acid residues 87-227. The protein was found to contain eight beta strands and two alpha helices, with the strands forming a mixed parallel and antiparallel beta sheet. At the level of primary sequence, antizyme is not similar to any protein of known structure, and results show that antizyme exhibits a novel arrangement of its strands and helices. Interestingly, however, the fold of antizyme is similar to that found in a family of acetyl transferases, as well as translation initiation factor IF3, despite a lack of functional relatedness between these proteins. Structural results, combined with amino acid sequence comparisons, were used to identify conserved features among the various homologues of antizyme and their isoforms. Conserved surface residues, including a cluster of acidic amino acids, were found to be located on a single face of antizyme, suggesting this surface is a possible site of interaction with target proteins such as ODC. This structural model provides an essential framework for an improved future understanding of how the different parts of antizyme play their roles in polyamine regulation.
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PMID:Solution structure of a conserved domain of antizyme: a protein regulator of polyamines. 1612 79

The human immunodeficiency virus type 1 (HIV-1) Vpu enhances viral particle release and, its interaction with the ubiquitin ligase SCF-beta-TrCP triggers the HIV-1 receptor CD4 degradation by the proteasome. The interaction between beta-TrCP protein and ligands containing the phosphorylated DpSGXXpS motif plays a key role for the development of severe disease states, such as HIV or cancer. This study examines the binding and conformation of phosphopeptides (P1, LIERAEDpSG and P2, EDpSGNEpSE) from HIV protein Vpu to beta-TrCP with the objective of defining the minimum length of peptide needed for effective binding. The screening step can be analyzed by NMR spectroscopy, in particular, saturation transfer NMR methods clearly identify the residues in the peptide that make direct contact with beta-TrCP protein when bound. An analysis of saturation transfer difference (STD) spectra provided clear evidence that the two peptides efficiently bound beta-TrCP receptor protein. To better characterize the ligand-protein interaction, the bound conformation of the phosphorylated peptides was determined using transferred NOESY methods, which gave rise to a well-defined structure. P1 and P2 can fold in a bend arrangement for the DpSG motif, showing the protons identified by STD-NMR as exposed in close proximity at the molecule surface. Ser phosphorylation allows electrostatic interaction and hydrogen bond with the amino acids of the beta-TrCP binding pocket. The upstream LIER hydrophobic region was also essential in binding to a hydrophobic pocket of the beta-TrCP WD domain. These findings are in good agreement with a recently published X-ray structure of a shorter beta-Catenin fragment with the beta-TrCP complex.
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PMID:NMR studies for identifying phosphopeptide ligands of the HIV-1 protein Vpu binding to the F-box protein beta-TrCP. 1616 51

The ubiquitin-proteasome pathway is essential throughout the life cycle of a cell. This system employs an astounding number of proteins to ubiquitylate and to deliver protein substrates to the proteasome for their degradation. At the heart of this process is the large and growing family of ubiquitin receptor proteins. Within this family is an intensely studied group that contains both ubiquitin-like (UBL) and ubiquitin-associated (UBA) domains: Rad23, Ddi1 and Dsk2. Although UBL/UBA family members are reported to regulate the degradation of other proteins, their individual roles in ubiquitin-mediated protein degradation has proven difficult to resolve due to their overlapping functional roles and interaction with each other and other ubiquitin family members. Here, we use a combination of NMR spectroscopy and molecular biology to reveal that Rad23 and Ddi1 interact with each other by using UBL/UBA domain interactions in a manner that does not preclude their interaction with ubiquitin. We demonstrate that UBL/UBA proteins can bind a common tetraubiquitin molecule and thereby provide strong evidence for a model in which chains adopt an opened structure to bind multiple receptor proteins. Altogether our results suggest a mechanism through which UBL/UBA proteins could protect chains from premature de-ubiquitylation and unnecessary elongation during their transit to the proteasome.
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PMID:UBL/UBA ubiquitin receptor proteins bind a common tetraubiquitin chain. 1640 5

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