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Query: EC:3.4.25.1 (
proteasome
)
28,817
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Ornithine decarboxylase
(
ODC
), a key enzyme in polyamine biosynthesis, is the most rapidly turned over mammalian enzyme. We have shown that its degradation is accelerated by
ODC
antizyme, an inhibitory protein induced by polyamines. This is a new type of enzyme regulation and may be a model for selective protein degradation. Here we report the identification of the protease responsible for
ODC
degradation. Using a cell-free degradation system, we demonstrate that immunodepletion of proteasomes from cell extracts causes almost complete loss of ATP- and antizyme-dependent degradation of
ODC
. In addition, purified 26S
proteasome
complex, but not the 20S
proteasome
, catalyses
ODC
degradation in the absence of ubiquitin. These results strongly suggest that the 26S
proteasome
, widely viewed as specific for ubiquitin-conjugated proteins, is the main enzyme responsible for
ODC
degradation. The 26S
proteasome
may therefore have a second role in ubiquitin-independent proteolysis.
...
PMID:Ornithine decarboxylase is degraded by the 26S proteasome without ubiquitination. 133 32
Proteasomes are large, unique protein complexes catalyzing energy- and ubiquitin-dependent proteolysis. Recent studies have revealed that these complexes are involved in two important cellular functions. One is to make antigen fragments for major histo-compatibility complex (MHC) class I-restricted antigen presentation and the other is to regulate the cell cycle by proteolysis. Here we review only the latter function of proteasomes. Proteasomes are widely distributed in eukaryotic cells, but their levels have been shown to be particularly high in various immature cells, such as cancerous, fetal and lymphoblastic cells, and agents including cell differentiation were found to suppress their expression. These conditions also regulate the expression of ubiquitin genes in a similar way, suggesting that proteasomes act ubiquitin-dependently in their 26S form in immature cells. High levels of proteasomes were found immunochemically in the nuclei of rapidly growing cells, indicating that proteasomes are important for eukaryotic cell growth. Indeed, gene disruptions of most subunits of proteasomes in yeast resulted in total suppression of cell growth and cell death. Short-lived regulatory factors of the cell cycle, such as Fos, p53, Mos, and cyclins are degraded by the
proteasome
-ubiquitin pathway under phosphorylated or dephosphorylated conditions.
Ornithine decarboxylase
, which is also a short-lived enzyme and is involved in the early phase of cell growth, is quickly degraded by proteasomes with antizyme, but without ubiquitination. Recently, we found that one of the regulatory factors of 26S proteasomes, p31, is a homologue of Nin1p, whose mutation caused inhibition of the cell cycle in yeast. These results indicate that proteasomes play important roles in regulation of the cell cycle in eukaryotes.
...
PMID:Roles of proteasomes in cell growth. 756 64
The 26 S
proteasome
complex is thought to catalyse the breakdown of ubiquitinated proteins within eukaryotic cells. In addition it has been found that the complex also degrades short-lived proteins such as
ornithine decarboxylase
in a ubiquitin-independent manner. Both proteolytic processes are paralleled by the hydrolysis of ATP. Here we show that ATP also affects the hydrolytic activity towards fluorigenic peptide substrates by the 26 S
proteasome
complex from rat skeletal muscle tissue. Low concentrations of ATP (about 25 microM) optimally activate the so-called chymotryptic and tryptic activity by increasing the rate of peptide hydrolysis but not peptidylglutamylpeptide hydrolysis. Activation of the enzyme by ATP is transient but this effect can be enhanced and prolonged by including in the assay an ATP-regenerating system, indicating that ATP is hydrolysed by the 26 S
proteasome
complex. Although ATP cannot be substituted for by adenosine 5'-[beta,gamma-methylene]triphosphate or AMP, hydrolysis of the phosphoanhydride bond of ATP seems not to be necessary for the activation process of the
proteasome
complex, a conclusion drawn from the findings that ATP analogues such as adenosine 5'-[beta,gamma-imido]triphosphate, adenosine 5'-O-[gamma-thio]triphosphate, adenosine 5'-O-[beta-thio]-diphosphate and adenosine 5'-[alpha,beta-methylene]triphosphate give the same effect as ATP, and vanadate does not prevent ATP activation. These effects are independent of the presence of Mg2+. Thus, ATP and other nucleotides may act as allosteric activators of peptide-hydrolysing activities of the 26 S
proteasome
complex as has also been found with the lon protease from Escherichia coli.
...
PMID:Studies on the activation by ATP of the 26 S proteasome complex from rat skeletal muscle. 761 56
Ornithine decarboxylase
(
ODC
) of African trypanosomes is an important target for anti-trypanosomal chemotherapy because of its remarkable stability in vivo. The in vivo activity and stability of mammalian
ODC
are regulated by polyamines. Polyamines induce antizyme, which inactivates
ODC
by tight association and promotes degradation of
ODC
by the mammalian 26 S
proteasome
. Here we found, in contrast to mammalian cells, that polyamines caused no reduction of
ODC
activity in Trypanosoma brucei. Mouse
ODC
expressed in T. brucei was also unaffected by exogenous polyamines, suggesting that a mammalian antizyme equivalent may be absent in T. brucei. The rat antizyme expressed in T. brucei was found capable of inhibiting mouse
ODC
activity by the formation of rat antizyme-mouse
ODC
complex. However, complex formation did not lead to degradation of mouse
ODC
in T. brucei. Further in vitro experiments suggested the presence of an inhibitory factor(s) in trypanosome, which interferes with the degradation of mouse
ODC
. We also demonstrated the presence of proteasomes in T. brucei. But the mobility of the trypanosomal
proteasome
on native gel is different from that of the mammalian
proteasome
. Thus, the absence of antizyme, the presence of inhibitory factor(s), and the differences between trypanosomal and mammalian
proteasome
may account for the stability of mouse
ODC
in T. brucei cells.
...
PMID:Rat antizyme inhibits the activity but does not promote the degradation of mouse ornithine decarboxylase in Trypanosoma brucei. 773 Mar 30
Ornithine decarboxylase
(
ODC
), a key enzyme in the biosynthesis of polyamines, is an extremely short-lived protein. This attribute is important for the regulation of the activity of the enzyme and implies that the mechanisms involved in its degradation play an important role in the control of the cellular processes in which the enzyme is involved. Recently, it has been shown that
ODC
is degraded by the 26S
proteasome
complex in a process that requires antizyme, but not ubiquitin. With one reported exception,
ODC
, the 26S complex recognizes and degrades specifically ubiquitinated proteins. Their unconjugated counterparts are not targeted. The 26S complex is composed of a core catalytic unit, the 20S
proteasome
complex, and two additional, and apparently distinct, subcomplexes. The two additional subcomplexes are regulatory subunits that are required in order to confer specificity and control. In this study, we demonstrate that, like the degradation of ubiquitin-conjugated proteins, ubiquitin-independent degradation of
ODC
also requires prior assembly of the mammalian 26S
proteasome
from all the three subunits, the 20S
proteasome
and the two subcomplexes. The combination of any two subunits does not support generation of a proteolytically active complex. This is also true for the yeast 26S complex. Like the mammalian 20S
proteasome
, the yeast 20S complex can cleave short peptides in an ATP-independent mode, but cannot degrade
ODC
or ubiquitin-conjugated proteins. These proteins are degraded only following addition of the regulatory subunits and generation of the high-molecular-mass 26S complex. In a distinct, but related, set of experiments, we demonstrate that the degradation of
ODC
by the assembled 26S
proteasome
in vitro reproduces faithfully proteolysis of the enzyme in the intact cell. Namely, (a) a C-terminal-deleted mouse
ODC
and trypanosome
ODC
are stable both in vitro and in vivo, and (b) like proteolysis in the intact cell, degradation in the reconstituted cell-free system is also dependent upon the addition of antizyme.
...
PMID:Degradation of ornithine decarboxylase by the mammalian and yeast 26S proteasome complexes requires all the components of the protease. 774 41
Eukaryotic cells possess two high-molecular-mass proteases, the 700 kDa, 20S
proteasome
, as well as the even larger 1,400 kDa, 26S
proteasome
. It has been demonstrated that
ornithine decarboxylase
is degraded, in vitro, by the 26S
proteasome
that contains the 20S protease as its catalytic core, but not by the free 20S
proteasome
. Recently, by demonstrating severe inhibition of mouse and yeast ODC degradation in a mutant yeast cell line, defective in the chymotripsin-like activity of the yeast 20S
proteasome
, we implicated the 20S
proteasome
in the degradation of ODC, in vivo, in yeast cells. Here we show that the degradation of ODC is also severely inhibited in the mutant yeast cell lines, cim3-1 and cim5-1, containing a specific lesion in subunits that are unique to the yeast 26S
proteasome
. We therefore, conclude, that as illustrated in vitro, also in intact cells, it is the 26S
proteasome
, not the free 20S
proteasome
, that degrades ODC. We also demonstrate, that while deficiency in the
proteasome
chymotrypsine-like activity (in the yeast pre1-1 mutant) inhibits the degradation of both yeast and mouse ODCs, deficiency in the peptidyl-glutamyl-peptide-hydrolyzing (PGPH) activity inhibits only yeast ODC degradation. Similarly, we have noted that whereas the putative ATPase activity of both the CIM3 and CIM5 subunits is essential for the degradation of mouse ODC, only that of the CIM3 subunit is required for the degradation of yeast ODC. These results suggest differential utilization of individual proteasomal subunits in the recognition and degradation of individual short-lived proteins.
...
PMID:The 26S proteasome degrades mouse and yeast ornithine decarboxylase in yeast cells. 780 29
Previously we reported that
ornithine decarboxylase
(
ODC
) is degraded ATP-dependently by the 26 S
proteasome
in the presence of antizyme (AZ), an
ODC
inhibitor (Murakami, Y., Matsufuji, S., Kameji, T., Hayashi, S., Igarashi, K., Tamura, T., Tanaka, K., and Ichihara, A. (1992) Nature 360, 597-599). Here we examined the cleavage of
ODC
by the 26 S
proteasome
. When
ODC
purified from
ODC
-overproducing cells was incubated with the 26 S
proteasome
and with AZ fused with maltose-binding protein (MBP) in the presence of ATP,
ODC
was degraded specifically without appreciable breakdown of MBP-AZ. The major degradation products of
ODC
, which were separated by high performance liquid chromatography on a reverse-phase column, were identified by N-terminal amino acid sequencing. The 26 S
proteasome
generated a variety of short peptides of 5-11 amino acid residues derived from regions throughout the
ODC
sequence. No detectable amounts of free amino acid residues were produced, indicating endoproteolytic degradation of
ODC
by the 26 S
proteasome
. Their major sites for cleavage of
ODC
by the 26 S
proteasome
were on the carboxyl sides of neutral/hydrophobic amino acid residues, but a few were on those of acidic or basic amino acid residues. These results demonstrate that the 26 S
proteasome
causes exhaustive endoproteolysis of the naturally occurring short-lived protein
ODC
in a multicatalytic and ATP-dependent manner.
...
PMID:ATP- and antizyme-dependent endoproteolysis of ornithine decarboxylase to oligopeptides by the 26 S proteasome. 802 Dec 37
Ornithine decarboxylase
(
ODC
) degradation in a freshly prepared reticulocyte lysate was examined. Immunodepletion of proteasomes from the reticulocyte lysate resulted in almost complete loss of
ODC
degradation. In contrast with the previously reported degradation in extracts of hepatoma tissue-culture (HTC) and Chinese-hamster ovary (CHO) cells or that by the purified 26 S
proteasome
, efficient degradation of
ODC
was observed in the lysate without exogenous antizyme, an
ODC
protein inhibitor induced by polyamines, owing to the presence of a significant amount of antizyme in the lysate. The degradation of
ODC
in the lysate was strongly suppressed on inactivation of antizyme in the lysate with antizyme inhibitor, a protein which binds to the antizyme and releases
ODC
from the
ODC
-antizyme complex. Thus the main pathway for
ODC
degradation in a reticulocyte lysate was essentially the same as that characterized previously in extracts of HTC and CHO cells, namely an ATP- and antizyme-dependent 26 S
proteasome
-catalysed pathway that is presumed to be responsible for
ODC
degradation in whole cells.
...
PMID:Involvement of the proteasome and antizyme in ornithine decarboxylase degradation by a reticulocyte lysate. 821 32
Ornithine decarboxylase
(
ODC
), a key enzyme in the biosynthesis of polyamines, is one of the most rapidly degraded proteins in mammalian cells. Recently it has been demonstrated that mammalian
ODC
is degraded in vitro by the
26S protease
that contains the 20S
proteasome
as its catalytic core, in a reaction that does not require ubiquitin. Here, we show that yeast and mouse
ODC
are both rapidly degraded in yeast cells and that their degradation severely inhibited in a mutant yeast cell line defective in the chymotryptic activity of proteinase yscE, the yeast 20S
proteasome
. These results provide compelling genetic support to previous biochemical studies suggesting the involvement of the 20S
proteasome
in the degradation of
ornithine decarboxylase
.
...
PMID:The 20S proteasome mediates the degradation of mouse and yeast ornithine decarboxylase in yeast cells. 829 6
Eukaryotic cells have been shown to contain two high-molecular-mass proteases of 700 kDa and 1400 kDa (20S and 26S proteases, respectively). It has been suggested that the 20S protease, also known as
proteasome
, may constitute the catalytic core of the
26S protease
. While the role of the free 20S protease in intracellular protein degradation is unclear, the
26S protease
is implicated in the degradation of ubiquinated proteins. We have recently demonstrated, that
ornithine decarboxylase
(
ODC
), one of the most labile proteins in mammalian cells, is degraded via an ATP-dependent but ubiquitin-independent proteolytic pathway. Here we extend these observations by demonstrating that in reticulocyte lysate
ODC
degradation is inhibited by antibodies raised against the C9 subunit of rat
proteasome
. Partial fractionation of the lysate demonstrated preferential degradation of
ODC
in the fraction of the lysate proteins that are precipitated by 38% ammonium sulfate. Since it was demonstrated that the
26S protease
precipitates at this concentration of ammonium sulfate while the 20S
proteasome
remains soluble, our results suggest that the
26S protease
is the one degrading
ODC
.
...
PMID:Involvement of the 20S proteasome in the degradation of ornithine decarboxylase. 847 95
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