UNIPROT:P62988 - FACTA Search

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Query: UNIPROT:P62988 (Ubiquitin)
4,326 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Lysine 48-linked polyubiquitin chains are the best understood form of polyubiquitin and are necessary for the function of the ubiquitin-proteasome system. However, other forms of polyubiquitin (e.g., K29- and K63-linked chains) are also present in vivo. Less is known about the functional roles of these linkages or the proteins specifically interacting with these forms of polyubiquitin. Use of native polyubiquitin chains to identify binding proteins is complicated by the difficulties of synthesis and stability. Here, we report the synthesis of a nonhydrolyzable analogue of 29-linked polyubiquitin chains on an affinity support and its use in identifying proteins that bind 29-linked polyubiquitin chains. The 29-linked Ub4 resin was stable and tightly bound recombinant human Isopeptidase T (USP5), a deubiquitinating enzyme known to bind the 29-linked polyubiquitin chains. Two high affinity interactors of the 29-linked polyubiquitin analogues were identified from Saccharomyces cerevisiae lysates. They were identified as Ubp14, the yeast ortholog of Isopeptidase T, and Ufd3, a member of the ubiquitin-fusion degradation pathway with unknown function. Purified recombinant Ufd3 bound to the resin as well, confirming that Ufd3 is a novel binding partner of polyubiquitin. These results demonstrate the efficacy of using polyubiquitin analogue affinity supports to identify novel binding partners of specifically linked polyubiquitin chains. Identification of these proteins will lead to a greater understanding of the physiological relevance of different polyubiquitin linkages.
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PMID:Identification of a novel 29-linked polyubiquitin binding protein, Ufd3, using polyubiquitin chain analogues. 1509 53

The breast and ovarian tumor suppressor BRCA1 forms a heterodimeric RING-type ubiquitin ligase with BARD1 to catalyze untraditional Lys-6-linked polyubiquitin chains. It is not clear how the BRCA1-BARD1 ligase regulates various cellular processes such as DNA repair, cell-cycle progression, transcriptional regulation, and centrosome duplication. Here we report that BRCA1-BARD1 catalyzes the polyubiquitination of nucleolar phosphoprotein nucleophosmin/B23 (NPM). Two different mass spectrometry screens for protein ubiquitinated by BRCA1-BARD1 both identified NPM. NPM interacts with N-terminal fragments of BRCA1 and BARD1 in a manner dependent upon BRCA1-BARD1 heterodimer formation. NPM colocalizes with BRCA1 and BARD1 in mitotic cells suggesting the possibility of NPM regulation by BRCA1-BARD1 during mitosis. BRCA1-BARD1 catalyzes the ubiquitination of NPM in vitro and in vivo, and BRCA1-BARD1 co-expression in cells causes NPM stabilization rather than degradation. This is consistent with the notion that this ligase catalyzes untraditional polyubiquitin chains. Given the many overlapped functions between NPM and BRCA1, we propose that NPM is a strong candidate as a substrate of the BRCA1-BARD1 ubiquitin ligase.
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PMID:Nucleophosmin/B23 is a candidate substrate for the BRCA1-BARD1 ubiquitin ligase. 1518 79

Ubiquitin is best known for its function in targeting proteins for degradation by the proteasome. Recent studies have revealed several new functions of ubiquitin that are independent of proteasomal degradation. These functions include the novel signaling roles of ubiquitin in DNA repair and the activation of protein kinases such as IkappaB kinase. In both cases, a novel form of polyubiquitin chain linked through lysine-63 of ubiquitin plays an important regulatory role. Monoubiquitination also has signaling roles that are distinct from those of polyubiquitination, as illustrated from the studies of DNA repair. Thus, polyubiquitination and monoubiquitination have emerged as important signaling mechanisms that control diverse physiological and pathological processes.
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PMID:The novel functions of ubiquitination in signaling. 1519 53

The ataxin-1 interacting ubiquitin-like protein (A1Up) contains an amino-terminal ubiquitin-like (UbL) region, four stress-inducible, heat shock chaperonin-binding motifs (STI1), and an ubiquitin-associated domain (UBA) at the carboxyl terminus of A1Up. Although proteins that have both an UbL and UBA domain are thought to play a crucial role in proteasome-mediated activities, few are characterized, except for hHR23A/B. Similar to other UbL-containing proteins, the UbL of A1Up is essential for the interaction of A1Up with the S5a subunit of the 19S proteasome. Importantly, the interaction with the 19S proteasome was disrupted in the presence of the polyglutamine repeat protein, ataxin-1. The UbL domain of A1Up is ubiquitinated by both Lys(48)-linked and Lys(63)-linked chains. Intact A1Up is stable, suggesting that ubiquitination of A1Up is important for degradation-independent targeting of A1Up to the 19S proteasome. The UBA domain of A1Up binds polyubiquitin chains and has a role in the stability of A1Up and in the subcellular localization of A1Up. When the UBA domain was deleted, the localization of A1Up was entirely cytoplasmic, and it co-localized with the proteasome. Interestingly, the interaction between A1Up and mutant ataxin-1-(82Q) increased the half-life of A1Up, whereas nonpathogenic wild-type ataxin-1-(30Q) or ataxin-1-(82Q)-A776 did not.
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PMID:The effects of the polyglutamine repeat protein ataxin-1 on the UbL-UBA protein A1Up. 1528 Mar 65

The activation of NF-kappaB and IKK requires an upstream kinase complex consisting of TAK1 and adaptor proteins such as TAB1, TAB2, or TAB3. TAK1 is in turn activated by TRAF6, a RING domain ubiquitin ligase that facilitates the synthesis of lysine 63-linked polyubiquitin chains. Here we present evidence that TAB2 and TAB3 are receptors that bind preferentially to lysine 63-linked polyubiquitin chains through a highly conserved zinc finger (ZnF) domain. Mutations of the ZnF domain abolish the ability of TAB2 and TAB3 to bind polyubiquitin chains, as well as their ability to activate TAK1 and IKK. Significantly, replacement of the ZnF domain with a heterologous ubiquitin binding domain restored the ability of TAB2 and TAB3 to activate TAK1 and IKK. We also show that TAB2 binds to polyubiquitinated RIP following TNFalpha stimulation. These results indicate that polyubiquitin binding domains represent a new class of signaling domains that regulate protein kinase activity through a nonproteolytic mechanism.
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PMID:TAB2 and TAB3 activate the NF-kappaB pathway through binding to polyubiquitin chains. 1532 70

Tumor necrosis factor receptor-associated factor 6 (TRAF6) is a crucial signaling transducer that regulates a diverse array of physiological processes, including adaptive immunity, innate immunity, and bone metabolism. Importantly, it is essential for activating NF-kappaB signaling pathway in response to interleukin-1 and Toll-like receptor ligands. Previously, we characterized TRAF6 to be a ubiquitin ligase. In combination with the ubiquitin conjugating enzyme complex Ubc13/Uev1A, TRAF6 could catalyze the formation on itself of unique Lys-63 linked polyubiquitin chain that positively regulated NF-kappaB signaling pathway. However, it remains unknown how this auto-ubiquitination process is regulated. In this study, we found that the coiled-coil domain of TRAF6 was essential for its auto-ubiquitination and activating NF-kappaB signaling pathway. This domain served not as the specific target where the polyubiquitin chain was linked, but as a specific bridge to recruit Ubc13/Uev1A.
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PMID:The coiled-coil domain of TRAF6 is essential for its auto-ubiquitination. 1546 37

Acute stimulation of the receptor for the hepatocyte growth factor/scatter factor Met leads to receptor monoubiquitination and down-regulation through the lysosomal degradation pathway. We have determined that the Met receptor undergoes multiple monoubiquitination as opposed to the appendage of polyubiquitin chains. Nevertheless, overexpression of ubiquitin in HEK293T cells enhances the rate of Met receptor degradation, in contrast to a point mutant of ubiquitin (K48R) that cannot form Lys(48)-linked polyubiquitin chains. Furthermore, an enhancement of Met degradation is also seen under conditions where the proteasome is inhibited by lactacystin. We propose that this reflects polyubiquitin-dependent sorting of Met, as the overexpression of ubiquitin but not K48R ubiquitin also restores hepatocyte growth factor-dependent phosphorylation of the endosomal coat protein Hrs from inhibition by lactacystin. Our data indicate a requirement for K48R-linked polyubiquitin for Met endosomal trafficking independent of its canonical function of targeting for proteasomal degradation.
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PMID:The met receptor degradation pathway: requirement for Lys48-linked polyubiquitin independent of proteasome activity. 1546 66

Ubiquitin-dependent proteolysis by proteasomes generally depends upon the conjugation of polyubiquitin chains to lysine epsilon-NH(2) groups within the targeted proteins. However, engineered lysine-less mutants of certain viral and cellular proteins can undergo polyubiquitination at their N-termini. Is N-terminal polyubiquitination a physiologic process, and how many cellular proteins can be targeted for proteasomal degradation through this mechanism? Recent work indicates that the turnover of the endogenous lysine-less human ARF tumor suppressor protein and its mouse Arf counterpart (containing a single, non-conserved lysine residue) is regulated in this manner.
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PMID:N-Terminal polyubiquitination of the ARF tumor suppressor, a natural lysine-less protein. 1546 72

Human T-cell leukemia virus type 1 (HTLV-1) is the retrovirus responsible for adult T-cell leukemia and HTLV-1-associated myelopathy. Adult T-cell leukemia development is mainly due to the ability of the viral oncoprotein Tax to promote T-cell proliferation, whereas the appearance of HTLV-1-associated myelopathy involves the antigenic properties of Tax. Understanding the events regulating the intracellular level of Tax is therefore an important issue. How Tax is degraded has not been determined, but it is known that Tax binds to proteasomes, the major sites for degradation of intracellular proteins, generally tagged through polyubiquitin conjugation. In this study, we investigated the relationship between Tax, ubiquitin, and proteasomes. We report that mono- and polyubiquitinated Tax proteins can be recovered from both transfected 293T cells and T lymphocytes. We also show that lysine residues located in the carboxy-terminal domain of Tax are the principal targets of this process. Remarkably, we further demonstrate that mutation of lysine residues in the C-terminal part of Tax, which massively reduces Tax ubiquitination, impairs proteasome binding, and conversely, that a Tax mutant that binds poorly to this particle (M22) is faintly ubiquitinated, suggesting that Tax ubiquitination is required for association with cellular proteasomes. Finally, we document that comparable amounts of ubiquitinated species were found whether proteasome activities were inhibited or not, providing evidence that they are not directly addressed to proteasomes for degradation. These findings indicate that although it is ubiquitinated and binds to proteasomes, Tax is not massively degraded via the ubiquitin-proteasome pathway and therefore reveal that Tax conjugation to ubiquitin mediates a nonproteolytic function.
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PMID:Stable ubiquitination of human T-cell leukemia virus type 1 tax is required for proteasome binding. 1547 24

TRAF6 (tumor necrosis factor receptor-associated factor 6) is a RING (really interesting new gene) domain ubiquitin (Ub) ligase that mediates the activation of protein kinases, such as transforming growth factor beta-activated kinase (TAK1) and IkappaB kinase (IKK), by catalyzing the formation of a unique polyubiquitin chain linked through Lys-63 of Ub. Here, we present evidence that TIFA (TRAF-interacting protein with a forkhead-associated domain, also known as T2BP) activates IKK by promoting the oligomerization and Ub ligase activity of TRAF6. We show that recombinant TIFA protein, but not TRAF6-binding-defective mutant, can activate IKK in crude cytosolic extracts. Furthermore, TIFA activates IKK in an in vitro reconstitution system consisting of purified proteins, including TRAF6, the TAK1 kinase complex, and Ub-conjugating enzyme complex Ubc13-Uev1A. Interestingly, a fraction of recombinant TIFA protein exists as high-molecular-weight oligomers, and only these oligomeric forms of TIFA can activate IKK. Importantly, TIFA induces the oligomerization and polyubiquitination of TRAF6, which leads to the activation of TAK1 and IKK through a proteasome-independent mechanism.
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PMID:TIFA activates IkappaB kinase (IKK) by promoting oligomerization and ubiquitination of TRAF6. 1549 26

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