Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:3.4.25.1 (
proteasome
)
28,817
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In mammalian cells proteasomes can be activated by two different types of regulatory complexes which bind to the ends of the
proteasome
cylinder. Addition of two 19 S (PA700; ATPase) complexes forms the 26 S
proteasome
, which is responsible for ATP-dependent non-lysosomal degradation of intracellular proteins, whereas 11 S complexes (PA28;
REG
) have been implicated in antigen processing. The PA28 complex is upregulated in response to gamma-interferon (gamma-IFN) as are three non-essential subunits of the 20 S
proteasome
. In the present study we have investigated the effects of gamma-IFN on the level of different
proteasome
complexes and on the phosphorylation of
proteasome
subunits. After treatment of cells with gamma-IFN, the level of 26 S proteasomes decreased and there was a concomitant increase in PA28-
proteasome
complexes. However, no free 19 S regulatory complexes were detected. The majority of the gamma-IFN-inducible
proteasome
subunits LMP2 and LMP7 were present in PA28-
proteasome
complexes, but these subunits were also found in 26 S proteasomes. The level of phosphorylation of both 20 S and 26 S
proteasome
subunits was found to decrease after gamma-IFN treatment of cells. The C8 alpha subunit showed more than a 50% decrease in phosphorylation, and the phosphorylation of C9 was only barely detectable after gamma-IFN treatment. These results suggest that association of regulatory components to 20 S proteasomes is regulated, and that phosphorylation of
proteasome
alpha subunits may be one mode of regulation.
...
PMID:gamma-Interferon decreases the level of 26 S proteasomes and changes the pattern of phosphorylation. 1113 93
The
proteasome
activator PA28 (11S
REG
) is composed of two homologous subunits termed alpha and beta. The properties of the recombinant beta-subunit were explored and compared to the properties of the recombinant alpha-subunit. PA28beta produced in an Escherichia coli expression system migrates on a calibrated gel filtration column as an apparent heptamer (Mr = 250,000). Low concentrations of SDS (0.005%), dissociate the protein to a monomer (Mr = 33,000). PA28beta, has a complex effect on
proteasome
activity. At concentrations which favor oligomerization (> 2 microM), PA28beta is a strong
proteasome
activator although its affinity for the
proteasome
is about 10-fold less than recombinant PA28alpha. The catalytic properties of the PA28alpha and PA28beta-activated
proteasome
are similar. At low concentrations, PA28beta is a monomer and a potent allosteric proteasome inhibitor. These studies show that oligomerization of PA28beta is required for
proteasome
activation and that PA28beta monomers are potent
proteasome
inhibitors.
...
PMID:Properties of the beta subunit of the proteasome activator PA28 (11S REG). 1114 28
PA28 or 11S
REG
is a
proteasome
activator composed of homologous alpha- and beta-subunits and predominantly found in the cytosol. A homologous protein originally known as the Ki antigen but now called PA28gamma or REGgamma is predominantly localized in the nucleus. To further characterize the biochemical properties of PA28gamma, we expressed and purified homogenous recombinant human protein with and without an N-terminal 6-His extension. PA28gamma is a heptamer based on the molecular masses of the native and monomeric proteins. The heptameric 6-His fusion protein can dimerize. Recombinant PA28y stimulates the
proteasome
-mediated hydrolysis of synthetic substrates containing hydrophobic, basic, and acidic amino acids in the P1 position. Stimulation is dependent on substrate size. PA28y only minimally stimulates degradation of the oxidized B chain of insulin. PA28gamma may facilitate the later stages of protein metabolism in the nucleus and/or have a more specialized role in controlling the levels of biologically active peptides in the nucleus.
...
PMID:Properties of the nuclear proteasome activator PA28gamma (REGgamma). 1118 62
The
proteasome
activators known as 11S
REG
or PA28 were discovered about 10 years ago. They are homo- or heteroheptameric rings that bind to the ends of 20S proteasomes and activate cleavage of peptides but not folded proteins. In this article, we focus on structural features of three homologous
REG
subunits (termed alpha, beta, gamma) that contribute to their oligomerization,
proteasome
binding and
proteasome
activation. We review a number of published studies on the biochemical properties of REGs and present new results in which N-terminal sequences and sequences flanking
REG
activation loops have been exchanged between homologs. Characterization of these chimeras and previously constructed C-terminal chimeras reveal that N-terminal and loop flanking sequences affect oligomerization, whereas C-terminal sequences are essential for
proteasome
binding. None of these regions is responsible for the broad activation specificity of REGs alpha/beta versus the narrow specificity of REGgamma. Rather, mutation in a single residue lining the channel through the REGgamma heptamer changes the activation property of the gamma homolog to match that of REGs alpha and beta.
...
PMID:Molecular dissection of the 11S REG (PA28) proteasome activators. 1129
The effect of heat shock protein 90 (Hsp-90) and several other proteins on the catalytic activities of the 20 S
proteasome
(MPC) was examined. The chymotrypsin-like (ChT-L) and peptidylglutamyl-peptide hydrolyzing (PGPH) activities of the pituitary MPC were inhibited by Hsp-90 with IC50 values of 8 and 28 nM, respectively. Bovine serum albumin and two other proteins tested inhibited the same activities with much higher IC50 values. The trypsin-like and branched-chain amino-acid-preferring activities were not affected by any of the proteins. None of the activities of the bovine spleen MPC, an enzyme form in which the X, Y, and Z subunits are virtually completely replaced by the LMP2, LMP7, and LMP10 subunits, was affected by either Hsp-90 or the other proteins tested. Hsp-90 inhibited the degradation of the oxidized B-chain of insulin by the pituitary MPC but not by its spleen counterpart. The PA28 activator (11 S regulator;
REG
) of the
proteasome
abolished the inhibitory effect of Hsp-90 and other proteins on the ChT-L and PGPH activities of the pituitary MPC. It is suggested that Hsp-90 induces conformational changes that affect the ChT-L and PGPH activities expressed by the X and Y subunits, respectively, but does not affect the activities expressed by LMP subunits.
...
PMID:Heat shock protein-90 and the catalytic activities of the 20 S proteasome (multicatalytic proteinase complex). 1136 78
11S REGs (PA28s) are multimeric rings that bind proteasomes and stimulate peptide hydrolysis. Whereas REGalpha activates proteasomal hydrolysis of peptides with hydrophobic, acidic or basic residues in the P1 position, REGgamma only activates cleavage after basic residues. We have isolated REGgamma mutants capable of activating the hydrolysis of fluorogenic peptides diagnostic for all three active
proteasome
beta subunits. The most robust REGgamma specificity mutants involve substitution of Glu or Asp for Lys188. REGgamma(K188E/D) variants are virtually identical to REGalpha in
proteasome
activation but assemble into less stable heptamers/hexamers. Based on the REGalpha crystal structure, Lys188 of REGgamma faces the aqueous channel through the heptamer, raising the possibility that
REG
channels function as substrate-selective gates. However, covalent modification of
proteasome
chymotrypsin-like subunits by 125I-YL3-VS demonstrates that REGgamma(K188E)'s activation of all three
proteasome
active sites is not due to relaxed gating. We propose that decreased stability of REGgamma(K188E) heptamers allows them to change conformation upon
proteasome
binding, thus relieving inhibition of the CT and PGPH sites normally imposed by the wild-type REGgamma molecule.
...
PMID:Lysine 188 substitutions convert the pattern of proteasome activation by REGgamma to that of REGs alpha and beta. 1143 24
The human immunodeficiency virus-1 Tat protein inhibits the peptidase activity of the 20S
proteasome
and competes with the 11S regulator/PA28 for binding to the 20S
proteasome
. Structural comparison revealed a common site in the Tat protein and the 11S regulator alpha-subunit (REGalpha) called the
REG
/Tat-
proteasome
-binding (RTP) site. Kinetic assays found amino acid residues Lys51, Arg52 and Asp67 forming the RTP site of Tat to be responsible for the effects on proteasomes in vitro. The RTP site identified in REGalpha consists of the residues Glu235, Lys236 and Lys239. Mutation of the REGalpha amino acid residues Glu235 and Lys236 to Ala resulted in an REGalpha mutant that lost the ability to activate the 20S
proteasome
even though it still forms complexes with REGbeta and binds to the 20S
proteasome
. The REGalpha RTP site is needed to enhance the presentation of a cytomegalovirus pp89 protein-derived epitope by MHC class I molecules in mouse fibroblasts. Cell experiments demonstrate that the Tat amino acid residues 37-72 are necessary for the interaction of the viral protein with proteasomes in vivo. Full-length Tat and the Tat peptide 37-72 suppressed 11S regulator-mediated presentation of the pp89 epitope. In contrast, the Tat peptide 37-72 with mutations of amino acid residues Lys51, Arg52 and Asp67 to Ala was not able to reduce antigen presentation.
...
PMID:The RTP site shared by the HIV-1 Tat protein and the 11S regulator subunit alpha is crucial for their effects on proteasome function including antigen processing. 1241 64
The
proteasome
regulator
REG
(PA28gamma) is a conserved complex present in metazoan nuclei and is able to stimulate the trypsin-like activity of the
proteasome
in a non-ATP dependent manner. However, the in vivo function for REGgamma in metazoan cells is currently unknown. To understand the role of Drosophila REGgamma we have attempted to identify the type of promoter elements regulating its transcription. Mapping the site of the transcription initiation revealed a TATA-less promoter, and a sequence search identified elements found typically in Drosophila genes involved in cell cycle progression and DNA replication. In order to test the relevance of the motifs, REGgamma transcriptional assays were carried out with mutations in the proposed promoter. Our results indicate that a single Drosophila replication-related element sequence, DRE, is essential for REGgamma transcription. To confirm that REGgamma has a role in cell cycle progression, the effect of removing REGgamma from S2 cells was tested using RNA interference. Drosophila cells depleted of REGgamma showed partial arrests in G1/S cell cycle transition. Immuno-staining of Drosophila embryos revealed that REGgamma is typically localized to the nucleus during embryogenesis with increased levels present in invaginating cells during gastrulation. The REGgamma was found dispersed throughout the cell volume within mitotic domains undergoing cell division. Finally, database searches suggest that the DRE system may regulate key members of the
proteasome
system in Drosophila.
...
PMID:Drosophila proteasome regulator REGgamma: transcriptional activation by DNA replication-related factor DREF and evidence for a role in cell cycle progression. 1266 25
The
proteasome
activation properties of recombinant
REG
gamma molecules depend on purification procedures. Prior to ammonium sulfate precipitation recombinant
REG
gamma activates the trypsin-like catalytic subunit of the
proteasome
; afterwards it activates all three catalytic subunits. The expanded activation specificity is accompanied by reduced stability of the
REG
gamma heptamer providing support for the idea that a "tight"
REG
gamma heptamer suppresses the
proteasome
's chymotrypsin-like and postglutamyl-preferring active sites. In an attempt to determine whether
REG
gamma synthesized in mammalian cells also exhibits restricted activation properties, extracts were prepared from several mammalian organs and cell lines. Surprisingly, endogenous
REG
gamma was found to be largely monomeric. In an alternate approach, COS7 cells were cotransfected with plasmids expressing FLAG-
REG
gamma and
REG
gamma. The expressed FLAG-
REG
gamma molecules were shown to form oligomers with untagged
REG
gamma subunits, and the mixed oligomers preferentially activated the
proteasome
's trypsin-like subunit. Thus,
REG
gamma molecules synthesized in mammalian cells also exhibit restricted activation properties.
...
PMID:Purification procedures determine the proteasome activation properties of REG gamma (PA28 gamma). 1511 Nov 23
PA28 (also named
REG
or 11S) is a ring-shaped (180-kDa) interferon-gamma-induced complex that associates with the 20S
proteasome
and dramatically stimulates the breakdown of short peptides. Immunoprecipitation studies indicate that in vivo PA28 also exists in larger complexes that also contain the 19S particle, which is required for the ATP-ubiquitin-dependent degradation of proteins. However, because of its lability (e.g., it does not withstand exposure to high ionic strength buffers), this larger complex cannot be purified by standard biochemical protocols. Therefore, we developed a method to reconstitute in vitro such hybrid proteasomes (i.e., PA28-20S-19S) from highly purified components. This chapter describes conditions that allow the association of PA28 with "singly capped" 26S (i.e., 19S-20S) particles. In addition assays are described to measure absolute rates of degradation of several non-ubiquitinated proteins by 26S and 20S proteasomes and methods to analyze the pattern and size distribution of peptides generated during the degradation of these proteins.
...
PMID:Preparation of hybrid (19S-20S-PA28) proteasome complexes and analysis of peptides generated during protein degradation. 1627 41
<< Previous
1
2
3
4
Next >>
