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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)
The E6 proteins derived from tumour associated papillomavirus types target the cellular tumour suppressor
protein p53
for ubiquitin mediated degradation. In cell lines derived from cervical tumours the
p53 protein
is present in very low amounts, but it can be activated by appropriate DNA damaging agents, indicating that functional
p53
is present within these lines. Recent studies have also shown that different polymorphic forms of the
p53 protein
are differentially susceptible to E6 mediated degradation. Therefore we have been interested in analysing the effects of different HPV E6 proteins upon
p53
levels in a variety of cervical tumour derived cell lines. We show that inhibition of E6 mediated degradation of
p53
frequently results in increased levels of
p53
expression. However, there are notable exceptions to this where increased
p53
levels are only obtained following DNA damage and
proteasome
inhibition. We also show in E6 expressing cells, that as well as
p53
being targeted for degradation, the localization of
p53
to the nucleus is also inhibited, consistent with previous observations which indicate that degradation of
p53
is not essential for E6 mediated inhibition of
p53
function. These results have important implications for any potential therapies which might aim to block E6 mediated degradation of
p53
.
...
PMID:Inhibition of E6 induced degradation of p53 is not sufficient for stabilization of p53 protein in cervical tumour derived cell lines. 1036 51
The c-Fos and c-Jun oncoproteins and the
p53 tumor suppressor protein
are short-lived transcription factors. Several catabolic pathways contribute to their degradation in vivo. c-Fos and c-Jun are thus mostly degraded by the
proteasome
, but there is indirect evidence that, under certain experimental/physiological conditions, calpains participate in their destruction, at least to a limited extent. Lysosomes have also been reported to participate in the destruction of c-Fos. Along the same lines,
p53
is mostly degraded following the ubiquitin/
proteasome
pathway and calpains also seem to participate in its degradation. Moreover, c-Fos, c-Jun and
p53
turnovers are regulated upon activation of intracellular signalling cascades. All taken together, these observations underline the complexity of the mechanisms responsible for the selective destruction of proteins within cells.
...
PMID:Are there multiple proteolytic pathways contributing to c-Fos, c-Jun and p53 protein degradation in vivo? 1036 46
The ubiquitin/
proteasome
pathway mediates the degradation of many short-lived proteins that are critically involved in the regulation of cell proliferation and cell death, including the
tumor suppressor protein p53
. Accumulation of
p53
and induction of apoptosis in RAW 264.7 macrophages in response to nitric oxide are well established. However, the molecular mechanisms involved in nitric oxide-induced
p53
accumulation are unknown. Here we show that, similar to nitric oxide, treatment of macrophages with specific
proteasome
inhibitors, including clastolactacystin-beta-lactone, induces
p53
accumulation and apoptosis, suggesting that nitric oxide may affect the activity of the
proteasome
. In support of this hypothesis, both exposure of cells to S-nitrosoglutathione and stimulation of endogenous nitric oxide production by lipopolysaccharide/interferon-gamma treatment result in inhibition of
proteasome
activity as measured in vitro by the degradation of the
proteasome
-specific substrate succinyl-Leu-Leu-Val-Tyr-4-methylcoumarin-7-amide. Moreover, chemically diverse nitric oxide donors interfere with
proteasome
-mediated degradation of polyubiquitinated
p53
in vitro. These data imply that nitric oxide-induced apoptosis and accumulation of
p53
are, at least in part, mediated by inhibition of the
proteasome
.
...
PMID:Activation of the cell death program by nitric oxide involves inhibition of the proteasome. 1039 92
We have previously described biological model systems for studying tumor suppression in which, by using H-1 parvovirus as a selective agent, cells with a strongly suppressed malignant phenotype (KS or US) were derived from malignant cell lines (K562 or U937). By using cDNA display on the K562/KS cells, 15 cDNAs were now isolated, corresponding to genes differentially regulated in tumor suppression. Of these, TSAP9 corresponds to a TCP-1 chaperonin, TSAP13 to a regulatory
proteasome
subunit, and TSAP21 to syntaxin 11, a vesicular trafficking molecule. The 15 cDNAs were used as a molecular fingerprint in different tumor-suppression models. We found that a similar pattern of differential regulation is shared by activation of
p53
, p21(Waf1), and the human homologue of Drosophila seven in absentia, SIAH-1. Because SIAH-1 is differentially expressed in the various models, we characterized it at the protein and functional levels. The 32-kDa, mainly nuclear protein encoded by SIAH-1, can induce apoptosis and promote tumor suppression. These results suggest the existence of a common mechanism of tumor suppression and apoptosis shared by
p53
, p21(Waf1), and SIAH-1 and involving regulation of the cellular machinery responsible for protein folding, unfolding, and trafficking.
...
PMID:SIAH-1 promotes apoptosis and tumor suppression through a network involving the regulation of protein folding, unfolding, and trafficking: identification of common effectors with p53 and p21(Waf1). 1039 49
The
p53
family of proteins play instrumental roles in mediating the cellular response to stress. The
p53
-related gene product, p73, occurs as two distinct protein isoforms, referred to as alpha and beta, which differ in the length of the C-terminal region and arise through alternative splicing of the p73 RNA. Here, we describe an analysis of the transcription properties of p73 and show that although there are certain similarities between transcriptional activation mediated by p73 and
p53
, such as in their sensitivity to adenovirus E1A and the requirement for p300/CBP co-activator proteins, significant differences are apparent in the response mechanisms. Thus, we find that p73 shows a degree of specificity for the promoters of target genes that is quantitatively distinct from the response mediated by
p53
. For example, p73 activates the GADD45 gene more efficiently than
p53
, whereas the reverse situation was apparent for the p21 gene. These effects are, in part, due to the influence of a regulatory domain present in the extended C-terminal of the alpha isoform. Moreover, we provide evidence that this domain regulates protein abundance by influencing the
proteasome
-dependent degradation of p73. These data define a novel level of isoform-specific control in regulating p73 activity, and thereby highlight a significant difference between the mechanisms that govern the transcriptional activity of
p53
and p73.
...
PMID:Promoter specificity and stability control of the p53-related protein p73. 1043 30
The
p53
gene encodes one of the most important tumor suppressors in human cells and undergoes frequent mutational inactivation in cancers. MDM2, a transcriptional target of
p53
, binds
p53
and can both inhibit
p53
-mediated transcription [1] [2] and target
p53
for
proteasome
-mediated proteolysis [3] [4]. A close relative of
p53
, p73, has recently been identified [5] [6]. Here, we report that, like
p53
, p73alpha and the alternative transcription product p73beta also bind MDM2. Interaction between MDM2 and
p53
represents a key step in the regulation of
p53
, as MDM2 promotes the degradation of
p53
. In striking contrast to
p53
, the half-life of p73 was found to be increased by binding to MDM2. Like MDM2, the MDM2-related protein MDMX also bound p73 and stabilized the level of p73. Moreover, the growth suppression functions of p73 and the induction of endogenous p21, a major mediator of the
p53
-dependent growth arrest pathway, were enhanced in the presence of MDM2. These differences between the regulation of
p53
and p73 by MDM2/MDMX may highlight a physiological difference in their action.
...
PMID:MDM2 and MDMX bind and stabilize the p53-related protein p73. 1046 68
The Mdm2 oncoprotein mediates
p53
degradation at cytoplasmic proteasomes and is the principal regulator for maintaining low, often undetectable levels of
p53
in unstressed cells. However, a subset of human tumors including neuroblastoma constitutively harbor high levels of wild type
p53 protein
localized to the cytoplasm. Here we show that the abnormal
p53
accumulation in such cells is due to a profound resistance to Mdm2-mediated degradation. Overexpression of Mdm2 in neuroblastoma (NB)(1) cell lines failed to decrease the high steady state levels of endogenous
p53
. Moreover, exogenous
p53
, when introduced into these cells, was also resistant to Mdm2-directed degradation. This resistance is not due to a lack of Mdm2 expression in NB cells or a lack of
p53
-Mdm2 interaction, nor is it due to a deficiency in the ubiquitination state of
p53
or
proteasome
dysfunction. Instead, Mdm2-resistant
p53
from NB cells is associated with covalent modification of
p53
and masking of the modification-sensitive PAb 421 epitope. This system provides evidence for an important level of regulation of Mdm2-directed
p53
destruction in vivo that is linked to
p53
modification.
...
PMID:Cytoplasmically "sequestered" wild type p53 protein is resistant to Mdm2-mediated degradation. 1048 81
Mammalian DNA topoisomerase I is a multifunctional enzyme which is essential for embryonal development. In addition to its classical DNA nicking-closing activities which are needed for relaxation of supercoiled DNA, topoisomerase I can phosphorylate certain splicing factors. The enzyme is also involved in transcriptional regulation through its ability to associate with other proteins in the TFIID-, and possibly TFIIH-, transcription complexes, and is implicated in the recognition of DNA lesions. Finally, topoisomerase I is a recombinase which can mediate illegitimate recombination. A crucial reaction intermediate during relaxation of DNA is the formation of a DNA-topoisomerase I complex (the cleavable complex) where topoisomerase I is covalently linked to a 3 -end of DNA thereby creating a single stranded DNA break. Cleavable complexes are also formed in the vicinity of DNA lesions and in the presence of the antitumor agent, camptothecin. While formation of cleavable complexes may be necessary for the initial stages of the DNA damage response, these complexes are also potentially dangerous to the cell due to their ability to mediate illegitimate recombination, which can lead to genomic instability and oncogenesis. Thus the levels and stability of these complexes have to be strictly regulated. This is obtained by maintaining the enzyme levels relatively constant, by limiting the stability of the cleavable complexes through physical interaction with the oncogene suppressor
protein p53
and by degradation of the topoisomerase I by the
proteasome
system. Emerging evidence suggest that these regulatory functions are perturbed in tumor cells, explaining at the same time why topoisomerase I activities so often are increased in certain human tumors, and why these cells are sensitized to the cytotoxic effects of camptothecins.
...
PMID:DNA topoisomerase I in oncology: Dr Jekyll or Mr Hyde? 1049 Oct 13
The
proteasome
is a multiprotein complex involved in the degradation of ubiquitinated proteins. Three
proteasome
inhibitors, calpain inhibitor I, lactacystin and MG132, induced apoptosis in several human malignant glioma cell lines. Although
proteasome
inhibitors induced
p53
accumulation in a cell line retaining wild-type
p53
activity,
p53
activity was dispensable for apoptosis since transdominant-negative
p53
abrogated
p53
-dependent p21 induction but did not modulate apoptosis. Further, p21 was induced by higher concentrations of
proteasome
inhibitors in a
p53
-independent manner both in
p53
wild-type and in
p53
mutant cell lines. Although there was a strong G2/M arrest in response to
proteasome
inhibition in glioma cells, this G2/M arrest was also observed in p21(-/-) colon carcinoma cells, suggesting that p21 is dispensable for the G2/M arrest associated with
proteasome
inhibition. Interestingly, the p21(-/-) cells were more resistant to protease inhibitors than parental p21(+/+) cells. In summary, our data indicate that
proteasome
inhibition induces a p21-independent G2/M arrest and
p53
-independent apoptosis in human malignant glioma cells.
...
PMID:Proteasome inhibitors induce p53/p21-independent apoptosis in human glioma cells. 1049 25
Rapid degradation of wild-type
p53
in the human uterine cervix is induced by the infection of high-risk human papilloma virus (HPV) types 16 and 18. HPV-E6 protein plays a critical role in the poly-ubiquitination of wild-type
p53
by mediating the association of
p53
with E6-associated protein (E6AP). As a result, the poly-ubiquitinated
p53
is rapidly and selectively degraded by the 26S
proteasome
. We have established a high throughput assay system to monitor poly-ubiquitination of wild-type
p53
using a new fluorescence homogeneous technology known as Homogeneous Time-Resolved Fluorescence (HTRFTM). The Europium Cryptate [Eu(K)]-labeled ubiquitins are incorporated into poly-ubiquitin chains conjugated with the biotinylated
p53
. In the HTRF assay, Europium cryptate-labeled ubiquitin and streptavidin-labeled allophycocyanin (XL665) are used as the fluorescence donor and acceptor, respectively. The biotinylated
p53
is ubiquitinated by ubiquitination enzymes, then by the addition of streptavidin-labeled XL665, the donor and acceptor molecules are brought in close proximity, thereby generating fluorescent signals. This time-resolved fluorescence assay system shows a sufficient signal for its application in synthetic compound screening and having almost the same level of sensitivity as that monitored by the scintillation proximity assay (SPA) using 125I-labeled ubiquitin. The detection of poly-ubiquitination of wild-type
p53
by using the HTRFTM or SPA systems described here is much easier and quicker than by using conventional methods. Therefore, these new systems would be appropriate for high throughput screening of compounds for the discovery of new inhibitors of poly-ubiquitination of wild-type
p53
.
...
PMID:Application of homogeneous time-resolved fluorescence (HTRFTM) to monitor poly-ubiquitination of wild-type p53. 1053 89
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