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Query: UNIPROT:P62988 (
Ubiquitin
)
4,326
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The glycine-alanine (GA) repeat of the Epstein-Barr virus nuclear antigen-1 inhibits in cis ubiquitin-dependent proteolysis in mammalian cells through a yet unknown mechanism. In the present study we demonstrate that the GA repeat targets an evolutionarily conserved step in proteolysis since it can prevent the degradation of proteasomal substrates in the yeast Saccharomyces cerevisiae. Insertion of yeast codon-optimised recombinant GA (rGA) repeats of different length in green fluorescent protein reporters harbouring N-end rule or ubiquitin fusion degradation signals resulted in efficient stabilisation of these substrates. Protection was also achieved in rpn10delta yeast suggesting that this
polyubiquitin
binding protein is not required for the rGA effect. The conserved effect of the GA repeat in yeast opens the possibility for the use of genetic screens to unravel its mode of action.
FEBS Lett 2003
Dec
04
PMID:Inhibition of ubiquitin/proteasome-dependent proteolysis in Saccharomyces cerevisiae by a Gly-Ala repeat. 1464 50
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.
Mol Cell Biol 2003
Dec
PMID:Involvement of the DNA repair protein hHR23 in p53 degradation. 1464 9
Cycloheximide acts at the large subunit of the ribosome to inhibit translation. Here we report that ubiquitin levels are critical for the survival of Saccharomyces cerevisiae cells in the presence of cycloheximide: ubiquitin overexpression confers resistance to cycloheximide, while a reduced ubiquitin level confers sensitivity. Consistent with these findings, ubiquitin is unstable in yeast (t(1/2) = 2 h) and is rapidly depleted upon cycloheximide treatment. Cycloheximide does not noticeably enhance ubiquitin turnover, but serves principally to block ubiquitin synthesis. Cycloheximide also induces UBI4, the
polyubiquitin
gene. The cycloheximide-resistant phenotype of ubiquitin overexpressors is also characteristic of partial-loss-of-function proteasome mutants.
Ubiquitin
is stabilized in these mutants, which may account for their cycloheximide resistance. Previous studies have reported that ubiquitin is destabilized in the absence of Ubp6, a proteasome-associated deubiquitinating enzyme, and that ubp6 mutants are hypersensitive to cycloheximide. Consistent with the model that cycloheximide-treated cells are ubiquitin deficient, the cycloheximide sensitivity of ubp6 mutants can be rescued either by ubiquitin overexpression or by mutations in proteasome subunit genes. These results also show that ubiquitin wasting in ubp6 mutants is proteasome mediated.
Ubiquitin
overexpression rescued cells from additional translational inhibitors such as anisomycin and hygromycin B, suggesting that ubiquitin depletion may constitute a widespread mechanism for the toxicity of translational inhibitors.
Mol Cell Biol 2003
Dec
PMID:Ubiquitin depletion as a key mediator of toxicity by translational inhibitors. 1464 27
Recent studies documenting a role for local protein synthesis in synaptic plasticity have lead to interest in the opposing process, protein degradation, as a potential regulator of synaptic function. The ubiquitin-conjugation system identifies, modifies, and delivers proteins to the proteasome for degradation. We found that both the proteasome and ubiquitin are present in the soma and dendrites of hippocampal neurons. As the trafficking of glutamate receptors (GluRs) is thought to underlie some forms of synaptic plasticity, we examined whether blocking proteasome activity affects the agonist-induced internalization of GluRs in cultured hippocampal neurons. Treatment with the glutamate agonist AMPA induced a robust internalization of GluRs. In contrast, brief pretreatment with proteasome inhibitors completely prevented the internalization of GluRs. To distinguish between a role for the proteasome and a possible diminution of the free ubiquitin pool, we expressed a chain elongation defective ubiquitin mutant (UbK48R), which causes premature termination of
polyubiquitin
chains but, importantly, can serve as a substrate for mono-ubiquitin-dependent processes. Expression of K48R in neurons severely diminished AMPA-induced internalization establishing a role for the proteasome. These data demonstrate the acute (e.g., minutes) regulation of synaptic function by the ubiquitin-proteasome pathway in mammalian neurons.
Curr Biol 2003
Dec
02
PMID:Ubiquitin-mediated proteasome activity is required for agonist-induced endocytosis of GluRs. 1465 97
The cell wall-associated glyceraldehyde-3-phosphate dehydrogenase (cwGAPDH) activity in Saccharomyces cerevisiae increases (two- to 10-fold, depending on the strain) in response to starvation and temperature upshift. Assays using transformants carrying pTDH, a yeast centromer derivative plasmid containing the Candida albicans TDH3 gene (encoding GAPDH) fused in frame with the yeast SUC2-coding region for internal invertase, showed that starvation and/or temperature upshift result in a similar increase in both cwGAPDH and cell wall-associated invertase activities. In addition, this incorporation of GAPDH protein into the cell wall in response to stress does not require (i) de novo protein synthesis, indicating that preexisting cytosolic enzyme is incorporated into the cell wall, (ii) nor the participation of the ubiquitin yeast stress response system, as no differences were observed between wild-type and
polyubiquitin
-depleted (Deltaubi4) strains.
FEMS Yeast Res 2003
Dec
PMID:Starvation and temperature upshift cause an increase in the enzymatically active cell wall-associated glyceraldehyde-3-phosphate dehydrogenase protein in yeast. 1465 34
The formation of Lewy bodies (LBs) and their relationship to other types of nigral inclusions associated with Parkinson disease (PD), such as pale bodies (PBs), remain poorly understood. Known constituents of LBs include alpha-synuclein (alphaS) and ubiquitin (Ub), providing windows to their morphogenesis. Additionally, p62/sequestosome 1 has been identified as a common component of neuropathological and hepatocytic inclusions. To study the formation of PD-associated nigral inclusions, we analyzed the substantia nigra of cases with abundant LBs and PBs in hematoxylin and eosin (H&E) stain, using immunohistochemistry for alphaS, Ub, and p62. We found morphologically diverse alphaS-immunoreactive deposits within neuronal perikarya and neurites. Perikaryal types extended from punctate cytoplasmic staining to variform compact (i.e. PB-type and LB-type) inclusions. Using H&E, only a small subset of the compact deposits could be unambiguously identified. Labeling for p62 was highly similar to alphaS in compact perikaryal inclusions, whereas no punctate staining or intraneuritic inclusions were detected.
Ubiquitin
antibodies labeled compact deposits both within perikarya and neurites. The data suggest that pathological alphaS is first evident as punctate perikaryal material that, via coalescence and incorporation of p62 and Ub, yields PB-type structures from which LB-type inclusions form in a compaction-like manner. The results also point at dissimilarities in the formation of perikaryal vs intraneuritic inclusions.
J Neuropathol Exp Neurol 2003
Dec
PMID:Morphogenesis of Lewy bodies: dissimilar incorporation of alpha-synuclein, ubiquitin, and p62. 1469
Ubiquitin
is a highly conserved protein, and is encoded by a multigene family among eukaryote species. The
polyubiquitin
genes,
UbB
and
UbC
, comprise tandem multiple ubiquitin coding units without a spacer region or intron. We determined nucleotide sequences for the
UbB
and
UbC
of human, chimpanzee, gorilla, and orangutan. The ubiquitin repeat number of
UbB
was constant (3) in human and great apes, while that of
UbC
varied: 6 to 11 for human, 10 to 12 for chimpanzee, 8 for gorilla, and 10 for orangutan. The heterogeneity of the repeat number within closely related hominoid species suggests that a lineage-specific unequal crossover and/or gene duplication occurred. A marked homogenization of
UbC
occurred in gorilla with a low level of synonymous difference (p(s)). The homogenization of
UbC
also occurred in chimpanzee and less strikingly in human. The first and last ubiquitin coding units of
UbC
were clustered independently between species, and less affected by homogenization during the hominoid evolution. Therefore, the homogenization of ubiquitin coding units is likely due to an unequal crossing-over inside the ubiquitin units. The lineage-specific homogenization of
UbC
among closely related species suggests that concerted evolution has a key role in the short-term evolution of
UbC
.
J Mol Evol 2003
Dec
PMID:Lineage-specific homogenization of the polyubiquitin gene among human and great apes. 1474 43
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.
J Biol Chem 2004
Dec
17
PMID:The met receptor degradation pathway: requirement for Lys48-linked polyubiquitin independent of proteasome activity. 1546 66
Ubiquitin
(Ub) attachment to membrane proteins can serve as a sorting signal for lysosomal delivery. Recognition of Ub as a sorting signal can occur at the trans-Golgi network and is mediated in part by the clathrin-associated Golgi-localizing, gamma-adaptin ear domain homology, ARF-binding proteins (GGA). GGA proteins bind Ub via a three-helix bundle subdomain in their GAT (GGA and target of Myb1 protein) domain, which is also present in the Ub binding domain of target of Myb1 protein.
Ubiquitin
binding by yeast Ggas is required to direct sorting of ubiquitinated proteins such as general amino acid permease (Gap1) from the trans-Golgi network to endosomes. Using affinity chromatography and nuclear magnetic resonance spectroscopy, we have found that the human GGA3 GAT domain contains two Ub binding motifs that bind to the same surface of ubiquitin. These motifs are found within different helices within the three-helix GAT subdomain. When functionally analyzed in yeast, each motif was sufficient to mediate trans-Golgi network to endosomal sorting of Gap1, and mutation of both motifs resulted in defective Gap1 sorting without defects in other GGA-dependent processes.
J Biol Chem 2004
Dec
24
PMID:The GAT domains of clathrin-associated GGA proteins have two ubiquitin binding motifs. 1549 13
A majority of the orthopoxviruses, including the variola virus that causes the dreaded smallpox disease, encode a highly conserved 28-kDa protein with a classic RING finger sequence motif (C(3)HC(4)) at their carboxyl-terminal domains. The RING domain of p28 has been shown to be a critical determinant of viral virulence for the ectromelia virus (mousepox virus) in a murine infection model (Senkevich, T. G., Koonin, E. V., and Buller, R. M. (1994) Virology 198, 118-128). Here, we demonstrate that the p28 proteins encoded by the ectromelia virus and the variola virus possess E3 ubiquitin ligase activity in biochemical assays as well as in cultured mammalian cells. Point mutations disrupting the RING finger domain of p28 completely abolish its E3 ligase activity. In addition, p28 functions cooperatively with Ubc4 and UbcH5c, the E2 conjugating enzymes involved in 26 S proteasome degradation of protein targets. Moreover, p28 catalyzes the formation of Lys-63-linked
polyubiquitin
chains in the presence of Ubc13/Uev1A, a heterodimeric E2 conjugating enzyme, indicating that p28 may regulate the biological activity of its cognate viral and/or host cell target(s) by Lys-63-linked ubiquitin multimers. We thus conclude that the poxvirus p28 virulence factor is a new member of the RING finger E3 ubiquitin ligase family and has a unique polyubiquitylation activity. We propose that the E3 ligase activity of the p28 virulence factor may be targeted for therapeutic intervention against infections by the variola virus and other poxviruses.
J Biol Chem 2004
Dec
24
PMID:The poxvirus p28 virulence factor is an E3 ubiquitin ligase. 1549 20
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