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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)
Targeting the ubiquitin-
proteasome
pathway has emerged as a promising approach for treating cancer. Bortezomib (VELCADE, formerly known as PS-341), a potent and reversible proteasome inhibitor, is being evaluated in clinical trials for treating multiple myeloma, and various other types of hematologic and solid tumors. Proteasome inhibitors are known to induce apoptosis in human cancer cells. Nevertheless, the mechanisms of apoptosis induced by
proteasome
inhibitors remain unclear. In this study, we investigated the role of p53 and its downstream targets in bortezomib-induced apoptosis in HCT116 human colon cancer cells. We demonstrated that bortezomib induced p53, and activated its downstream genes p21,
PUMA
and Bax in a p53-dependent fashion. However, apoptotic response to bortezomib was not affected by the deletion of p53. Surprisingly, we found that bortezomib-induced apoptosis was markedly enhanced in the p21-knockout cells, while significantly decreased in the BAX-knockout cells. Furthermore, in the cells deficient for both Bax and p21, apoptosis was restored to the level in the parental or the p53-deficient cells. The opposite effects of Bax and p21 were unrelated to the extent of
proteasome
inhibition, and were also observed in cells treated with different
proteasome
inhibitors. These results indicate that p53 downstream targets can collectively modulate apoptotic response to bortezomib and other
proteasome
inhibitors.
...
PMID:Differential apoptotic response to the proteasome inhibitor Bortezomib [VELCADE, PS-341] in Bax-deficient and p21-deficient colon cancer cells. 1468 80
Increased amounts of reactive oxygen species (ROS) induce apoptosis in mammalian cells.
PUMA
(P53 up-regulated modulator of apoptosis), a mitochondrial proapoptotic BH3-only protein, induces rapid apoptosis through a Bax- and mitochondria-dependent pathway. However, the molecular basis of
PUMA
-induced apoptosis is largely not understood. Using a combination of biophysical and biochemical methods and
PUMA
-inducible colorectal cells, DLD-1.
PUMA
, we showed that (a)
PUMA
-induced apoptosis is dose and time dependent; (b)
PUMA
-induced apoptosis is directly associated with ROS generation; (c) diphenyleneiodonium chloride, a ROS blocker, or BAX-inhibiting peptide, a suppressor of BAX translocation, decreased ROS generation and apoptosis in DLD-1.
PUMA
cells; (d) overexpression of
PUMA
induced up-regulation (>1.34-fold) of peroxiredoxin 1 and down-regulation (by 25%) of stathmin through
proteasome
-mediated degradation; and (e) hydrogen peroxide down-regulated stathmin and disrupted the cellular microtubule network. Our findings indicate that
PUMA
induces apoptosis, in part, through the BAX-dependent generation of superoxide and hydrogen peroxide. ROS overproduction and oxidative stress induce proteome-wise alterations, such as stathmin degradation and disorganization of the cell microtubule network, in apoptotic cells.
...
PMID:PUMA overexpression induces reactive oxygen species generation and proteasome-mediated stathmin degradation in colorectal cancer cells. 1575 58
Targeting the ubiquitin-
proteasome
degradation pathway has become a promising approach for cancer therapy. Previous studies have shown that
proteasome
inhibition leads to apoptosis in various cancer cells. The mechanism by which apoptosis occurs are not fully understood and can be cell type and/or inhibitor specific. In this study, we investigated the mechanism of mitochondrial activation by
proteasome
inhibitors in colon cancer cells. We found that Bax activation and mitochondria translocation were required for apoptosis induced by multiple
proteasome
inhibitors. In contrast, reactive oxygen species did not seem to be induced by MG132 or bortezomib and antioxidants had no effects on MG132-induced apoptosis. In contrast, treatment with MG132 or bortezomib induced a significant accumulation of p53 and
PUMA
. Genetic deletion of either p53 or
PUMA
led to a marked suppression of apoptosis induced by these inhibitors, accompanied with reduced Bax activation and cytochrome c release. Consistently, inhibition of translation by cycloheximide could also effectively abolish the accumulation of p53 and
PUMA
and suppress MG132-induced Bax activation and apoptosis. These findings thus strongly indicate the critical involvement of p53-,
PUMA
-, and Bax-mediated mitochondrial activation in proteasome inhibitor-induced apoptosis in colon cancer cells.
...
PMID:A coordinated action of Bax, PUMA, and p53 promotes MG132-induced mitochondria activation and apoptosis in colon cancer cells. 1736 99
Effective treatments for androgen-independent prostate cancer (AIPCa) are lacking. To address this, emerging therapeutics such as
proteasome
inhibitors are currently undergoing clinical trials. Inositol hexakisphosphate (IP6) is an orally non-toxic phytochemical that exhibits antitumour activity against several types of cancer including PCa. We have previously shown that treatment of PC3 cells with IP6 induces the transcription of a subset of nuclear factor-kappaB (NF-kappaB)-responsive and pro-apoptotic BCL-2 family genes. In this study, we report that although NF-kappaB subunits p50/p65 translocate to the nucleus of PC3 cells in response to IP6, inhibition of NF-kappaB-mediated transcription using non-degradable inhibitor of kappaB (IkappaB)-alpha does not modulate IP6 sensitivity. Treatment with IP6 also leads to increased protein levels of
PUMA
, BIK/NBK and NOXA between 4 and 8 h of treatment and decreased levels of MCL-1 and BCL-2 after 24 h. Although blocking transcription using actinomycin D does not modulate PC3 cell sensitivity to IP6, inhibition of protein translation using cycloheximide has a significant protective effect. In contrast, blocking
proteasome
-mediated protein degradation using MG-132 significantly enhances the ability of IP6 to reduce cellular metabolic activity in both PC3 and DU145 AIPCa cell lines. This effect of combined treatment on mitochondrial depolarisation is particularly striking and is also reproduced by another proteasome inhibitor (ALLN). The enhanced effect of combined MG132/IP6 treatment is almost completely inhibited by cycloheximide and correlates with changes in BCL-2 family protein levels. Altogether these results suggest a role for BCL-2 family proteins in mediating the combined effect of IP6 and
proteasome
inhibitors and warrant further pre-clinical studies for the treatment of AIPCa.
...
PMID:Enhanced killing of androgen-independent prostate cancer cells using inositol hexakisphosphate in combination with proteasome inhibitors. 1894 59
Proteasome inhibitors induce rapid death of cancer cells. We show that in epithelial cancer cells, such death is associated with dramatic and simultaneous up-regulation of several BH3-only proteins, including BIK, BIM, MCL-1S, NOXA, and
PUMA
, as well as p53. Elevated levels of these proteins seem to be the result of direct inhibition of their proteasomal degradation, induction of transcription, and active translation. Subsequent cell death is independent of BAX, and probably BAK, and proceeds through the intrinsic mitochondrial apoptosis pathway. We identify the cascade of molecular events responsible for cell death induced by a prototypical proteasome inhibitor, MG132, starting with rapid accumulation of BH3-only proteins in the mitochondria, proceeding through mitochondrial membrane permeabilization and subsequent loss of DeltaPsi(m), and leading to irreversible changes of mitochondrial ultrastructure, degradation of mitochondrial network, and detrimental impairment of crucial mitochondrial functions. Our results also establish a rationale for the broader use of
proteasome
inhibitors to kill apoptosis-resistant tumor cells that lack functional BAX/BAK proteins.
...
PMID:BAX/BAK-independent mitoptosis during cell death induced by proteasome inhibition? 1967 75
We have previously shown that inhibition of the proteolytic activity of the
proteasome
induces apoptosis and suppresses essential functions of activated human CD4(+) T cells, and we report now the detailed mechanisms of apoptosis following
proteasome
inhibition in these cells. Here we show that
proteasome
inhibition by bortezomib activates the mitochondrial pathway of apoptosis in activated CD4(+) T cells by disrupting the equilibrium of pro-apoptotic and anti-apoptotic proteins at the outer mitochondrial membrane (OMM) and by inducing the generation of reactive oxygen species (ROS). Proteasome inhibition leads to accumulation of pro-apoptotic proteins
PUMA
, Noxa, Bim and p53 at the OMM. This event provokes mitochondrial translocation of activated Bax and Bak homodimers, which induce loss of mitochondrial membrane potential (DeltaPsim). Breakdown of DeltaPsim is followed by rapid release of pro-apoptotic Smac/DIABLO and HtrA2 from mitochondria, whereas release of cytochrome c and AIF is delayed. Cytoplasmic Smac/DIABLO and HtrA2 antagonize IAP-mediated inhibition of partially activated caspases, leading to premature activation of caspase-3 followed by activation of caspase-9. Our data show that
proteasome
inhibition triggers the mitochondrial pathway of apoptosis by activating mutually independent apoptotic pathways. These results provide novel insights into the mechanisms of apoptosis induced by
proteasome
inhibition in activated T cells and underscore the future use of
proteasome
inhibitors for immunosuppression.
...
PMID:Proteasome inhibition activates the mitochondrial pathway of apoptosis in human CD4+ T cells. 1973 79
Ovarian cancer is the number one cause of death from gynecologic malignancy. A defective p53 pathway is a hallmark of ovarian carcinoma. The p53 mutation correlates significantly with resistance to platinum-based chemotherapy, early relapse and shortened overall survival in ovarian cancer patients.
PUMA
(p53 upregulated modulator of apoptosis), a BH3-only Bcl-2 family protein, was recently identified as a transcriptional target of p53 and a potent apoptosis inducer in various cancer cells. In this study, we showed that the induction of
PUMA
by cisplatin was abolished in p53-deficient SKOV3 cells. Elevated expression of
PUMA
-induced apoptosis and sensitized A2780s and SKOV3 ovarian cancer cells to cisplatin, and the combination of
PUMA
and low-dose cisplatin, significantly suppressed xenograft tumor growth in vivo through enhanced induction of apoptosis compared with treatment with
PUMA
or cisplatin alone. The effects of
PUMA
were mediated by enhanced caspase activation and release of cytochrome c and Smac (second mitochondria-derived activator of caspase) into the cytosol. Furthermore,
PUMA
chemosensitized intrinsically resistant SKOV3 cells to cisplatin through downregulation of B-cell lymphoma-extra large (Bcl-x(L)) and myeloid cell leukemia sequence 1 (Mcl-1).
PUMA
-mediated Bcl-x(L) downregulation mainly happened at the transcription level, whereas
PUMA
-induced Mcl-1 down-regulation was associated with caspase-dependent cleavage and
proteasome
-mediated degradation. To our knowledge, these data suggest a new mechanism by which overexpression of
PUMA
enhances sensitivity of SKOV3 cells to cisplatin by lowering the threshold set simultaneously by Bcl-x(L) and Mcl-1. Taken together, our findings indicate that
PUMA
is an important modulator of therapeutic responses of ovarian cancer cells and is potentially useful as a chemosensitizer in ovarian cancer therapy.
...
PMID:The p53 upregulated modulator of apoptosis (PUMA) chemosensitizes intrinsically resistant ovarian cancer cells to cisplatin by lowering the threshold set by Bcl-x(L) and Mcl-1. 2186 13
Aurora B is a mitotic checkpoint kinase that plays a pivotal role in the cell cycle, ensuring correct chromosome segregation and normal progression through mitosis. Aurora B is overexpressed in many types of human cancers, which has made it an attractive target for cancer therapies. Tumor suppressor p53 is a genome guardian and important negative regulator of the cell cycle. Whether Aurora B and p53 are coordinately regulated during the cell cycle is not known. We report that Aurora B directly interacts with p53 at different subcellular localizations and during different phases of the cell cycle (for instance, at the nucleus in interphase and the centromeres in prometaphase of mitosis). We show that Aurora B phosphorylates p53 at S183, T211, and S215 to accelerate the degradation of p53 through the polyubiquitination-
proteasome
pathway, thus functionally suppressing the expression of p53 target genes involved in cell cycle inhibition and apoptosis (e.g., p21 and
PUMA
). Pharmacologic inhibition of Aurora B in cancer cells with WT p53 increased p53 protein level and expression of p53 target genes to inhibit tumor growth. Together, these results define a mechanism of p53 inactivation during the cell cycle and imply that oncogenic hyperactivation or overexpression of Aurora B may compromise the tumor suppressor function of p53. We have elucidated the antineoplastic mechanism for Aurora B kinase inhibitors in cancer cells with WT p53.
...
PMID:Aurora B kinase phosphorylates and instigates degradation of p53. 2261 Nov 92
Tip60 is an essential acetyltransferase required for acetylation of nucleosomal histones and other nonhistone proteins. Tip60 acetylates the p53 tumor suppressor at lysine 120 (K120), a modification essential for p53-dependent induction of
PUMA
and apoptosis. It is known that Tip60 is turned over in cells by the ubiquitin-
proteasome
system. However, the deubiquitinase activity for stabilizing Tip60 is unknown. Here we show that USP7 interacts with and deubiquitinates Tip60 both in vitro and in vivo. USP7 deubiquitinase activity is required for the stabilization of Tip60 in order to operate an effective p53-dependent apoptotic pathway in response to genotoxic stress. Inhibiting USP7 with the small-molecule inhibitor P22077 attenuates the p53-dependent apoptotic pathway by destabilizing Tip60. P22077, however, is still cytotoxic, and this is partly due to destabilization of Tip60.
...
PMID:Deubiquitination of Tip60 by USP7 determines the activity of the p53-dependent apoptotic pathway. 2377 19
Penalized Multiple Regression (PMR) can be used to discover novel disease associations in GWAS datasets. In practice, proposed PMR methods have not been able to identify well-supported associations in GWAS that are undetectable by standard association tests and thus these methods are not widely applied. Here, we present a combined algorithmic and heuristic framework for
PUMA
(Penalized Unified Multiple-locus Association) analysis that solves the problems of previously proposed methods including computational speed, poor performance on genome-scale simulated data, and identification of too many associations for real data to be biologically plausible. The framework includes a new minorize-maximization (MM) algorithm for generalized linear models (GLM) combined with heuristic model selection and testing methods for identification of robust associations. The
PUMA
framework implements the penalized maximum likelihood penalties previously proposed for GWAS analysis (i.e. Lasso, Adaptive Lasso, NEG,
MCP
), as well as a penalty that has not been previously applied to GWAS (i.e. LOG). Using simulations that closely mirror real GWAS data, we show that our framework has high performance and reliably increases power to detect weak associations, while existing PMR methods can perform worse than single marker testing in overall performance. To demonstrate the empirical value of
PUMA
, we analyzed GWAS data for type 1 diabetes, Crohns's disease, and rheumatoid arthritis, three autoimmune diseases from the original Wellcome Trust Case Control Consortium. Our analysis replicates known associations for these diseases and we discover novel etiologically relevant susceptibility loci that are invisible to standard single marker tests, including six novel associations implicating genes involved in pancreatic function, insulin pathways and immune-cell function in type 1 diabetes; three novel associations implicating genes in pro- and anti-inflammatory pathways in Crohn's disease; and one novel association implicating a gene involved in apoptosis pathways in rheumatoid arthritis. We provide software for applying our
PUMA
analysis framework.
...
PMID:PUMA: a unified framework for penalized multiple regression analysis of GWAS data. 2382 36
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