Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
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Target Concepts:
Gene/Protein
Disease
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Query: UNIPROT:P62988 (
Ubiquitin
)
4,326
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Ubiquitin
-like proteins modify target proteins, altering their activities or causing them to be slated for degradation. These modifications are used to efficiently regulate key events in the cell. To explore the set of proteins modified by a small ubiquitin-like protein, we have developed a proteomic approach. Affinity purification of an epitope-tagged Nedd8 allowed the identification of the majority of proteins known to be involved with the neddylation pathway. This purification not only isolated the known targets of neddylation but also the constellation of enzymes and complexes known to regulate neddylation and deneddylation, including the COP9 signalosome, Nub1, and enzymes in the neddylation cascade. This purification scheme can be applied to other small ubiquitin-like proteins, especially those with limited protein targets such as the SUMOs (1, 2, and 3), Isg15, or
FAT10
.
...
PMID:Analysis of Nedd8-associated polypeptides: a model for deciphering the pathway for ubiquitin-like modifications. 1650 56
Since its discovery in 1981, ubiquitin-activating enzyme 1 was thought to be the only E1-type enzyme responsible for ubiquitin activation. Recently, a relatively uncharacterized E1 enzyme, designated ubiquitin-like modifier activating enzyme 6, was also shown to activate ubiquitin. Ubiquitin-activating enzyme 1 and ubiquitin-like modifier activating enzyme 6 are both essential proteins, and each uses a different spectrum of ubiquitin-conjugating (E2) enzymes.
Ubiquitin
-like modifier activating enzyme 6 activates not only ubiquitin, but also the ubiquitin-like modifier
FAT10
(human leukocyte antigen F-associated transcript 10), which, similarly to ubiquitin, serves as a signal for proteasomal degradation. This new layer of regulation in ubiquitin activation markedly increases the versatility of the ubiquitin conjugation system.
...
PMID:Activating the ubiquitin family: UBA6 challenges the field. 1835 50
During misfolded-protein stress, the cytoplasmic protein histone deacetylase 6 (HDAC6) functions as a linker between the dynein motor and
polyubiquitin
to mediate the transport of polyubiquitylated cargo to the aggresome. Here, we identify a new binding partner of HDAC6, the ubiquitin-like modifier
FAT10
(also known as UBD), which is cytokine-inducible and - similar to ubiquitin - serves as a signal for proteasomal degradation. In vivo, the two proteins only interacted under conditions of proteasome impairment. The binding of HDAC6 to
FAT10
was mediated by two separate domains: the C-terminal ubiquitin-binding zinc-finger (BUZ domain) of HDAC6 and its first catalytic domain, even though catalytic activity of HDAC6 was not required for this interaction. Both endogenous and ectopically expressed
FAT10
as well as the model conjugate
FAT10
-GFP localized to the aggresome in a microtubule-dependent manner. Furthermore,
FAT10
-containing as well as ubiquitin-containing aggresomes were reduced in both size and number in HDAC6-deficient fibroblasts. We conclude that, if
FAT10
fails to subject its target proteins to proteasomal degradation, an alternative route is taken to ensure their sequestration and possibly also their subsequent removal by transporting them to the aggresome via the association with HDAC6.
...
PMID:The ubiquitin-like modifier FAT10 interacts with HDAC6 and localizes to aggresomes under proteasome inhibition. 1903 85
Expansion of polyglutamine (pQ) chain by expanded CAG repeat causes dominantly inherited neurodegeneration such as Huntington disease, dentatorubral-pallidoluysian atrophy (DRPLA), and numbers of other spinocerebellar ataxias. Expanded pQ disrupts the stability of the pQ-harboring protein and increases its susceptibility to aggregation. Aggregated pQ protein is recognized by the ubiquitin proteasome system, and the enzyme ubiquitin ligase covalently attaches ubiquitin, which serves as a degradation signal by the proteasome. However, accumulation of the aggregated proteins in the diseased brain suggests insufficient degradation machinery.
Ubiquitin
has several functionally related proteins that are similarly attached to target proteins through its C terminus glycine residue. They are called ubiquitin-like molecules, and some of them are similarly related to the protein degradation pathway. One of the ubiquitin-like molecules,
FAT10
, is known to accelerate protein degradation through a ubiquitin-independent manner, but its role in pQ aggregate degradation is completely unknown. Thus we investigated its role in a Huntington disease cellular model and found that
FAT10
molecules were covalently attached to huntingtin through their C terminus glycine.
FAT10
binds preferably to huntingtin with a short pQ chain and completely aggregated huntingtin was
FAT10
-negative. In addition, ataxin-1,3 and DRPLA proteins were both positive for
FAT10
, and aggregation enhancement was observed upon
FAT10
knockdown. These findings were similar to those for huntingtin. Our new finding will provide a new role for
FAT10
in the pathogenesis of polyglutamine diseases.
...
PMID:FAT10 protein binds to polyglutamine proteins and modulates their solubility. 2175 38
Ubiquitin
-like proteins (Ubls) confer diverse functions on their target proteins. The modified proteins are involved in various biological processes, including DNA replication, signal transduction, cell cycle control, embryogenesis, cytoskeletal regulation, metabolism, stress response, homeostasis and mRNA processing. Modifiers such as SUMO, ATG12, ISG15,
FAT10
, URM1, and UFM have been shown to modify proteins thus conferring functions related to programmed cell death, autophagy and regulation of the immune system. Putative modifiers such as Domain With No Name (DWNN) have been identified in recent times but not fully characterized. In this review, we focus on cellular processes involving human Ubls and their targets. We review current progress in targeting these modifiers for drug design strategies.
...
PMID:Modification by ubiquitin-like proteins: significance in apoptosis and autophagy pathways. 2310 84
Ubiquitin
and ubiquitin-like (Ubl) protein modifications affect protein stability, activity, and localization, but we still lack broad understanding of the functions of Ubl modifications. We have profiled the protein targets of ubiquitin and six additional Ubls in mitosis using a functional assay that utilizes active mammalian cell extracts and protein microarrays and identified 1,500 potential substrates; 80-200 protein targets were exclusive to each Ubl. The network structure is nonrandom, with most targets mapping to a single Ubl. There are distinct molecular functions for each Ubl, suggesting divergent biological roles. Analysis of differential profiles between mitosis and G1 highlighted a previously underappreciated role for the Ubl,
FAT10
, in mitotic regulation. In addition to its role as a resource for Ubl modifications, our study provides a systematic approach to analyze changes in posttranslational modifications at various cellular states.
...
PMID:Profiling of ubiquitin-like modifications reveals features of mitotic control. 2345 59
Ubiquitin
-like proteins (Ubl's) are conjugated to target proteins or lipids to regulate their activity, stability, subcellular localization, or macromolecular interactions. Similar to ubiquitin, conjugation is achieved through a cascade of activities that are catalyzed by E1 activating enzymes, E2 conjugating enzymes, and E3 ligases. In this review, we will summarize structural and mechanistic details of enzymes and protein cofactors that participate in Ubl conjugation cascades. Precisely, we will focus on conjugation machinery in the SUMO, NEDD8, ATG8, ATG12, URM1, UFM1,
FAT10
, and ISG15 pathways while referring to the ubiquitin pathway to highlight common or contrasting themes. We will also review various strategies used to trap intermediates during Ubl activation and conjugation.
...
PMID:Ubiquitin-like Protein Conjugation: Structures, Chemistry, and Mechanism. 2823 46
