EC:6.3.2.19 - FACTA Search

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Query: EC:6.3.2.19 (ubiquitin-protein ligase)
799 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ubiquitin, a 76 residue protein, occurs in eukaryotic cells either free or covalently joined via its carboxyl terminus to epsilon-amino groups of lysine residues in a wide variety of protein species. Previous work has shown that ubiquitin-protein conjugates are preferred substrates in vitro for a non-lysosomal ATP-dependent proteolytic pathway, suggesting that ubiquitin may function as a signal for attack by proteinases specific for ubiquitin-protein conjugates. One strategy to define the potential significance of the ubiquitin-dependent proteolytic pathway is to identify conditional mutants in the pathway. ts85 is a mouse derived cell-cycle mutant which has been shown to lose uH2A, a specific ubiquitin-histone H2A conjugate, at the nonpermissive temperature. We show that the loss of uH2A from ts85 cells is due to reduced ubiquitin-protein conjugation. We further show that the reduced conjugation is due to the specific thermolability of ubiquitin activating enzyme, E1, one of the three enzymic components of the ubiquitin-protein ligase system. We therefore proceeded to test whether the degradation of short-lived proteins is also temperature-sensitive in ts85 cells. Indeed, while more than 70% of the prelabeled abnormal (amino acid analog-containing) proteins or puromycyl peptides are degraded within 4 hours at the permissive temperature in the mutant (ts85), wild type (FM3A), and revertant (ts85R-MN3) cells, less than 15% of these proteins are degraded in ts85 cells at the nonpermissive temperature. In contrast, the rate of degradation of these proteins does not change significantly in either wild-type or revertant cells between permissive and nonpermissive temperatures. Degradation of normal short-lived proteins is also specifically temperature-sensitive in ts85 cells. Immunochemical analysis shows a strong and specific reduction in ubiquitin-protein conjugate levels in vivo at the nonpermissive temperature in ts85 cells. Taken together, our in vitro and in vivo findings with ts85 cells demonstrate that the degradation of the bulk of short-lived proteins in this higher eukaryotic cell is accomplished through a ubiquitin-mediated pathway.
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PMID:Mammalian cell cycle mutant defective in intracellular protein degradation and ubiquitin-protein conjugation. 299 83

A prerequisite for the selective degradation of intracellular proteins by the ubiquitin-dependent proteolytic pathway is the attachment of a chain of ubiquitin monomers to the targeted protein. In these multiubiquitin chains, the carboxyl-terminal glycine 76 of ubiquitin is linked via an isopeptide bond to the epsilon-amino group of lysine 48 in the adjacent ubiquitin. It remains to be determined whether these chains are preassembled and attached en masse to the target, are made by sequential conjugation of ubiquitin monomers to ubiquitins already linked to the protein, or both. Using the 20-kDa ubiquitin-conjugating enzyme TaUBC7 from wheat, we have generated free, glycine 76-->lysine 48-linked multiubiquitin chains (Ubqn), and have individually purified Ubqn species (n < or = 6) by anion-exchange, high pressure liquid chromatography. The migration of these chains during SDS-polyacrylamide gel electrophoresis was indistinguishable from those of major ubiquitin immunoreactive proteins in cell lysates from a variety of eukaryotes suggesting that free, multiubiquitin chains are abundant in vivo. One of these chain members (Ubq2) was purified from wheat and was demonstrated via amino acid sequence analysis of tryptic fragments to consist of two ubiquitin monomers joined via a glycine 76-->lysine 48 linkage. We also show in vitro that purified Ubq2 and Ubq4 are competent in activation by ubiquitin-activating enzyme (E1), in transfer to E2s, and in ubiquitin-protein ligase (E3)-independent conjugation to other Ubqn species and to histones H2A/B. These data demonstrate that multiubiquitin chains exist as free, functional structures in vivo and support the possibility that at least a portion of free ubiquitin is preassembled into multiubiquitin chains prior to its attachment to proteolytic substrates.
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PMID:Multiubiquitin chains linked through lysine 48 are abundant in vivo and are competent intermediates in the ubiquitin proteolytic pathway. 822 36

The smm1 mutation suppresses defects in mitochondrial distribution and morphology caused by the mdm1-252 mutation in the yeast Saccharomyces cerevisiae. Cells harboring only the smm1 mutation themselves display temperature-sensitive growth and aberrant mitochondrial inheritance and morphology at the nonpermissive temperature. smm1 maps to RSP5, a gene encoding an essential ubiquitin-protein ligase. The smm1 defects are suppressed by overexpression of wild-type ubiquitin but not by overexpression of mutant ubiquitin in which lysine-63 is replaced by arginine. Furthermore, overexpression of this mutant ubiquitin perturbs mitochondrial distribution and morphology in wild-type cells. Site-directed mutagenesis revealed that the ubiquitin ligase activity of Rsp5p is essential for its function in mitochondrial inheritance. A second mutation, smm2, which also suppressed mdm1-252 defects, but did not cause aberrant mitochondrial distribution and morphology, mapped to BUL1, encoding a protein interacting with Rsp5p. These results indicate that protein ubiquitination mediated by Rsp5p plays an essential role in mitochondrial inheritance, and reveal a novel function for protein ubiquitination.
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PMID:A role for ubiquitination in mitochondrial inheritance in Saccharomyces cerevisiae. 1036 93

Polyubiquitin (Ub) chains linked through Lys-48-Gly-76 isopeptide bonds represent the principal signal by which substrates of the Ub-dependent protein degradation pathway are targeted to the 26 S proteasome, but the mechanism(s) whereby these chains are assembled on substrate proteins is poorly understood. Nor have assembly mechanisms or definitive functions been assigned to polyubiquitin chains linked through several other lysine residues of ubiquitin. We show that rabbit reticulocyte lysate harbors enzymatic components that catalyze the assembly of unanchored Lys-29-linked polyubiquitin chains. This reaction can be reconstituted using the ubiquitin-conjugating enzyme (E2) known as UbcH5A, a 120-kDa protein(s) that behaves as a ubiquitin-protein ligase (E3), and ubiquitin-activating enzyme (E1). The same partially purified E3 preparation also catalyzes the assembly of unanchored chains linked through Lys-48. Kinetic studies revealed a K(m) of approximately 9 microM for the acceptor ubiquitin in the synthesis of diubiquitin; this value is similar to the concentration of free ubiquitin in most cells. Similar kinetic behavior was observed for conjugation to Lys-48 versus Lys-29 and for conjugation to tetraubiquitin versus monoubiquitin. The properties of these enzymes suggest that there may be distinct pathways for ubiquitin-ubiquitin ligation versus substrate-ubiquitin ligation in vivo.
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PMID:E2/E3-mediated assembly of lysine 29-linked polyubiquitin chains. 1048 Sep 50

The yeast ZRT1 zinc transporter is regulated by zinc at both transcriptional and post-translational levels. At the post-translational level, zinc inactivates ZRT1 by inducing the removal of the protein from the plasma membrane by endocytosis. The zinc transporter is subsequently degraded in the vacuole. This regulatory system allows for the rapid shut off of zinc uptake activity in cells exposed to high zinc concentrations, thereby preventing overaccumulation of this potentially toxic metal. In this report, we examine the role of ubiquitin conjugation in this process. First, we show that ZRT1 is ubiquitinated shortly after zinc treatment and before endocytosis. Secondly, mutations in various components of the ubiquitin conjugation pathway, specifically the RSP5 ubiquitin-protein ligase and the UBC4 and UBC5 ubiquitin conjugating enzymes, inhibit both ubiquitination and endocytosis. Finally, mutation of a specific lysine residue in ZRT1 blocks both ubiquitination and endocytosis. This critical lysine, Lys-195, is located in a cytoplasmic loop region of the protein and may be the residue to which ubiquitin is attached. These results demonstrate that ubiquitin conjugation is a critical step in the signal transduction pathway that controls the rate of ZRT1 endocytosis in response to zinc.
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PMID:Zinc-regulated ubiquitin conjugation signals endocytosis of the yeast ZRT1 zinc transporter. 1067 50

The E6 protein of the high-risk human papillomaviruses (HPVs) and the cellular ubiquitin-protein ligase E6AP form a complex which causes the ubiquitination and degradation of p53. We show here that HPV16 E6 promotes the ubiquitination and degradation of E6AP itself. The half-life of E6AP is shorter in HPV-positive cervical cancer cells than in HPV-negative cervical cancer cells, and E6AP is stabilized in HPV-positive cancer cells when expression of the viral oncoproteins is repressed. Expression of HPV16 E6 in cells results in a threefold decrease in the half-life of transfected E6AP. E6-mediated degradation of E6AP requires (i) the binding of E6 to E6AP, (ii) the catalytic activity of E6AP, and (iii) activity of the 26S proteasome, suggesting that E6-E6AP interaction results in E6AP self-ubiquitination and degradation. In addition, both in vitro and in vivo experiments indicate that E6AP self-ubiquitination results primarily from an intramolecular transfer of ubiquitin from the active-site cysteine to one or more lysine residues; however, intermolecular transfer can also occur in the context of an E6-mediated E6AP multimer. Finally, we demonstrate that an E6 mutant that is able to immortalize human mammary epithelial cells but is unable to degrade p53 retains its ability to bind and degrade E6AP, raising the possibility that E6-mediated degradation of E6AP contributes to its ability to transform mammalian cells.
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PMID:Human papillomavirus type 16 E6 induces self-ubiquitination of the E6AP ubiquitin-protein ligase. 1086 52

In normal cells, p53 is maintained at a low level by ubiquitin-mediated proteolysis, but after genotoxic insult this process is inhibited and p53 levels rise dramatically. Ubiquitination of p53 requires the ubiquitin-activating enzyme Ubc5 as a ubiquitin conjugation enzyme and Mdm2, which acts as a ubiquitin protein ligase. In addition to the N-terminal region, which is required for interaction with Mdm2, the C-terminal domain of p53 modulates the susceptibility of p53 to Mdm2-mediated degradation. To analyze the role of the C-terminal domain in p53 ubiquitination, we have generated p53 molecules containing single and multiple lysine-to-arginine changes between residues 370 and 386. Although wild-type (WT) and mutant molecules show similar subcellular distributions, the mutants display a higher transcriptional activity than WT p53. Simultaneous mutation of lysine residues 370, 372, 373, 381, 382, and 386 to arginine residues (6KR p53 mutant) generates a p53 molecule with potent transcriptional activity that is resistant to Mdm2-induced degradation and is refractory to Mdm2-mediated ubiquitination. In contrast to WT p53, transcriptional activity directed by the 6KR p53 mutant fails to be negatively regulated by Mdm2. Those differences are also manifest in HeLa cells which express the human papillomavirus E6 protein, suggesting that p53 C-terminal lysine residues are also implicated in E6-AP-mediated ubiquitination. These data suggest that p53 C-terminal lysine residues are the main sites of ubiquitin ligation, which target p53 for proteasome-mediated degradation.
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PMID:Multiple C-terminal lysine residues target p53 for ubiquitin-proteasome-mediated degradation. 1104 42

The U box is a domain of approximately 70 amino acids that is present in proteins from yeast to humans. The prototype U box protein, yeast Ufd2, was identified as a ubiquitin chain assembly factor that cooperates with a ubiquitin-activating enzyme (E1), a ubiquitin-conjugating enzyme (E2), and a ubiquitin-protein ligase (E3) to catalyze ubiquitin chain formation on artificial substrates. E3 enzymes are thought to determine the substrate specificity of ubiquitination and have been classified into two families, the HECT and RING finger families. Six mammalian U box proteins have now been shown to mediate polyubiquitination in the presence of E1 and E2 and in the absence of E3. These U box proteins exhibited different specificities for E2 enzymes in this reaction. Deletion of the U box or mutation of conserved amino acids within it abolished ubiquitination activity. Some U box proteins catalyzed polyubiquitination by targeting lysine residues of ubiquitin other than lysine 48, which is utilized by HECT and RING finger E3 enzymes for polyubiquitination that serves as a signal for proteolysis by the 26 S proteasome. These data suggest that U box proteins constitute a third family of E3 enzymes and that E4 activity may reflect a specialized type of E3 activity.
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PMID:U box proteins as a new family of ubiquitin-protein ligases. 1143 23

The 3C proteases of the encephalomyocarditis virus and the hepatitis A virus are both type III substrates for the mammalian ubiquitin-protein ligase E3alpha. The conjugation of ubiquitin to these proteins requires internal ten-amino acid-long protein destruction signal sequences. To evaluate how these destruction signals modulate interactions that must occur between E3alpha and the 3C proteases, we have kinetically analyzed the formation of ubiquitin-3C protease conjugates in a reconstituted system of purified E1, HsUbc2b/E2(14Kb), and human E3alpha. Our measurements show that the encephalomyocarditis virus 3C protease is ubiquitinated in this system with K(m) = 42 +/- 11 microm and V(max) = 0.051 +/- 0.01 pmol/min whereas the parameters for the ubiquitination of the hepatitis A virus 3C protease are K(m) = 20 +/- 5 microm and V(max) = 0.018 +/- 0.003 pmol/min. Mutations in the destruction signal sequences resulted in changes in the rate at which E3alpha conjugates ubiquitin to the altered 3C protease proteins. The K(m) and V(max) values for these reactions change proportionally in the same direction. These results suggest differences in rates of conjugation of ubiquitin to 3C proteases are primarily a k(cat) effect. Replacing specific encephalomyocarditis virus 3C protease lysine residues with arginine residues was found to increase, rather than decrease, the rate of ubiquitin conjugation, and the K(m) and V(max) values for these reactions are both higher than for the wild type protein. The ability of E3alpha to catalyze the conjugation of ubiquitin to both 3C proteases was found to be inhibited by lysylalanine and phenylalanylalanine, demonstrating that the same sites on E3alpha that bind destabilizing N-terminal amino acids in type I and II substrates also interact with the 3C proteases.
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PMID:Kinetic analysis of the conjugation of ubiquitin to picornavirus 3C proteases catalyzed by the mammalian ubiquitin-protein ligase E3alpha. 1152 2

Fc receptors on leukocytes mediate internalization of antibody-containing complexes. Soluble immune complexes are taken up by endocytosis, while large antibody-opsonized particles are internalized by phagocytosis. We investigated the role of ubiquitylation in internalization of the human FcgammaRIIA receptor by endocytosis and phagocytosis. A fusion of FcgammaRIIA to green fluorescent protein (GFP) was expressed in ts20 cells, which bear a temperature-sensitive mutation in the E1 ubiquitin-activating enzyme. Uptake of soluble IgG complexes mediated by FcgammaRIIA-GFP was blocked by incubation at the restrictive temperature, indicating that endocytosis requires ubiquitylation. In contrast, phagocytosis and phagosomal maturation were largely unaffected when ubiquitylation was impaired. FcgammaRIIA-GFP was ubiquitylated in response to receptor cross-linking. Elimination of the lysine residues present in the cytoplasmic domain of FcgammaRIIA impaired endocytosis, but not phagocytosis. The proteasomal inhibitor clasto-lactacystin beta-lactone strongly inhibited endocytosis, but did not affect phagocytosis. These studies demonstrate a role for ubiquitylation in the endocytosis of immune receptors, and reveal fundamental differences in the mechanisms underlying internalization of a single receptor depending on the size or multiplicity of the ligand complex.
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PMID:Contrasting requirements for ubiquitylation during Fc receptor-mediated endocytosis and phagocytosis. 1182 18

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