Gene/Protein Disease Symptom Drug Enzyme Compound
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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) is the rate-limiting enzyme involved in the biosynthesis of polyamines essential for cell growth and differentiation. Aberrant upregulation of ODC, however, is widely believed to be a contributing factor in tumorigenesis. Antizyme is a major regulator of ODC, inhibiting ODC activity through the formation of complexes and facilitating degradation of ODC by the 26S proteasome. Moreover, the antizyme inhibitor (AZI) serves as another factor in regulating ODC, by binding to antizyme and releasing ODC from ODC-antizyme complexes. In our previous report, we observed elevated AZI expression in tumor specimens. Therefore, to evaluate the role of AZI in regulating ODC activity in tumors, we successfully down-regulated AZI expression using RNA interference technology in A549 lung cancer cells expressing high levels of AZI. Two AZI siRNAs, which were capable to generate a hairpin dsRNA loop targeting AZI, could successively decrease the expression of AZI. Using biological assays, antizyme activity increased in AZI-siRNA-transfected cells, and ODC levels and activity were reduced as well. Moreover, silencing AZI expression decreased intracellular polyamine levels, reduced cell proliferation, and prolonged population doubling time. Our results directly demonstrate that downregulation of AZI regulates ODC activity, intracellular polyamine levels, and cell growth through regulating antizyme activity. This study also suggests that highly expressed AZI may be partly responsible for increased ODC activity and cellular transformation.
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PMID:Stable siRNA-mediated silencing of antizyme inhibitor: regulation of ornithine decarboxylase activity. 1567 Jul 71

Proteasome inhibition is a novel, targeted approach in cancer therapy. Both natural and synthetic proteasome inhibitors selectively penetrate cancer cells, disrupting the orderly destruction of key regulatory proteins involved in tumorigenesis and metastasis. Disrupting the orderly destruction of regulatory proteins causes an imbalance of these proteins within the cell, which interferes with the systematic activation of signaling pathways required to maintain tumor cell growth and survival; therefore, cellular replication is inhibited and apoptosis ensues. Bortezomib (PS-341, Velcade), the first proteasome inhibitor evaluated in human clinical trials, has been approved by the US Food and Drug Administration for use in patients with refractory or relapsed multiple myeloma. Preclinical study results show that bortezomib suppresses tumor cell growth, induces apoptosis, overcomes resistance to standard chemotherapy agents and radiation therapy, and inhibits angiogenesis. Phase I study results established the antitumor activity of bortezomib, administered alone or in combination with standard chemotherapy agents, in patients with advanced hematologic malignancies or solid tumors, usually without additive toxicities. The results of phase II studies further supported the antitumor activity of bortezomib in patients with refractory or relapsed multiple myeloma and non-Hodgkin's lymphoma; less impressive results were observed in patients with stage IV renal cell cancer. Studies evaluating bortezomib in earlier stages of multiple myeloma, including first-line therapy, are under way. Evidence suggests that certain prognostic factors, such as older age and bone marrow containing more than 50% plasma cells, may be useful in predicting response and survival time in multiple myeloma patients receiving bortezomib. Further studies of bortezomib are needed to establish its full spectrum of activity, the ideal regimens for various tumor types, and clinically useful prognostic indicators that predict successful outcomes.
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PMID:Discovery, Development, and clinical applications of bortezomib. 1568 97

Beta-catenin is a multifunctional protein serving both as a structural element in cell adhesion and as a signaling component in the Wnt pathway, regulating embryogenesis and tumorigenesis. The signaling fraction of beta-catenin is tightly controlled by the adenomatous polyposis coli-axin-glycogen synthase kinase 3beta complex, which targets it for proteasomal degradation. It has been recently shown that Ca(2+) release from internal stores results in nuclear export and calpain-mediated degradation of beta-catenin in the cytoplasm. Here we have highlighted the critical relevance of constitutive calpain pathway in the control of beta-catenin levels and functions, showing that small interference RNA knock down of endogenous calpain per se (i.e. in the absence of external stimuli) induces an increase in the free transcriptional competent pool of endogenous beta-catenin. We further characterized the role of the known calpain inhibitors, Gas2 and Calpastatin, demonstrating that they can also control levels, function, and localization of beta-catenin through endogenous calpain regulation. Finally we present Gas2 dominant negative (Gas2DN) as a new tool for regulating calpain activity, providing evidence that it counteracts the described effects of both Gas2 and Calpastatin on beta-catenin and that it works via calpain independently of the classical glycogen synthase kinase 3beta and proteasome pathway. Moreover, we provide in vitro biochemical evidence showing that Gas2DN can increase the activity of calpain and that in vivo it can induce degradation of stabilized/mutated beta-catenin. In fact, in a context where the classical proteasome pathway is impaired, as in colon cancer cells, Gas2DN biological effects accounted for a significant reduction in proliferation and anchorage-independent growth of colon cancer.
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PMID:The calpain system is involved in the constitutive regulation of beta-catenin signaling functions. 1581 86

DeltaNp63alpha, a homologue of the tumor suppressor p53, acts as a transcriptional repressor with dominant negative effects towards p53. Additionally, DeltaNp63alpha is overexpressed in a number of squamous cell carcinomas, suggesting a potential role in oncogenesis. However, the mechanisms regulating p63 have yet to be elucidated. The goal of the current study was to determine the effect of various genotoxic stresses on DeltaNp63alpha posttranslational modification and stability in normal and transformed squamous epithelial cells. We found that DeltaNp63alpha protein levels decreased after ultraviolet radiation and paclitaxel treatment of both normal and transformed cells. After UV and paclitaxel treatment, DeltaNp63alpha phosphorylation was significantly modulated. Additionally, DeltaNp63alpha protein levels were regulated in a proteasome-dependent manner in control and UV treated cells with increased DeltaNp63alpha ubiquitination after UV treatment or proteasome inhibition. Our studies provide insight to a mechanism for DeltaNp63alpha regulation during normal cell proliferation and, in particular, after stress. Further, the inverse regulation of p53 and DeltaNp63alpha protein levels after cell stress through opposing regulation of proteasome-mediated degradation may allow for rapid transcriptional changes of specific target genes that are consistent with the roles of these family members in tumor suppression and cell growth.
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PMID:Ultraviolet radiation induces phosphorylation and ubiquitin-mediated degradation of DeltaNp63alpha. 1584 4

Critical cellular processes are regulated, in part, by maintaining the appropriate intracellular levels of proteins. Whereas de novo protein synthesis is a comparatively slow process, proteins are rapidly degraded at a rate compatible with the control of cell cycle transitions and cell death induction. A major pathway for protein degradation is initiated by the addition of multiple 76-amino acid ubiquitin monomers via a three-step process of ubiquitin activation and substrate recognition. Polyubiquitination targets proteins for recognition and processing by the 26S proteasome, a cylindrical organelle that recognizes ubiquitinated proteins, degrades the proteins, and recycles ubiquitin. The critical roles played by ubiquitin-mediated protein turnover in cell cycle regulation makes this process a target for oncogenic mutations. Oncogenes of several common malignancies, for example colon and renal cell cancer, code for ubiquitin ligase components. Cervical oncogenesis by human papillomavirus is also mediated by alteration of ubiquitin ligase pathways. Protein degradation pathways are also targets for cancer therapy, as shown by the successful introduction of bortezomib, an inhibitor of the 26S proteasome. Further work in this area holds great promise toward our understanding and treatment of a wide range of cancers.
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PMID:The ubiquitin-proteasome pathway and its role in cancer. 1603 54

Proteasomes are multisubunit proteases involved in many cellular processes, including tumorigenesis and immune surveillance. In their catalytic core, the 20S proteasome, the beta1, beta2 and beta5 subunits show peptidylglutamyl peptide hydrolyzing (PGPH), trypsin-like and chymotrypsin-like activities, respectively. By IFN-gamma and TNFalpha stimulus, these subunits are replaced by their counterparts LMP2, MECL-1 and LMP7, defined inducible subunits, thus originating the immunoproteasome, and expression of the proteasome activator PA28 is enhanced. These modifications strengthen MHC-class I restricted peptide generation. The 20S proteasome has been detected immunohistochemically in formalin-fixed samples purified from fresh surgical specimens of 18 tumors (G20S) and from 8 samples of normal peritumoral tissue. The G20S, LMP2, MECL-1 and LMP7 increased in only 12 cases, along with unvaried trypsin-like and decreased PGPH and chymotrypsin-like activities; PA28 was unvaried in all 18 samples. The immunoproteasome alterations may represent an anomalous immunological attitude of glioblastomas.
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PMID:Characterization of the 20S proteasome in human glioblastomas. 1610 Nov 28

Kaposi's sarcoma-associated herpesvirus (KSHV) establishes latent infections in lymphocytes and endothelial cells, and latent infection is closely linked to tumorigenesis. As few viral markers are expressed during latency, compounds that can safely and efficiently increase lytic gene expression in vivo have been sought. We have found that the non-tumour-promoting phorbol ester prostratin and the proteasome inhibitor bortezomib induce immediate-early, early and late KSHV gene expression from two lymphoma cell lines in vitro. Their ability to induce lytic gene expression supports a role for phorbol-ester and proteasome-regulated signalling pathways in KSHV reactivation and prompts further investigation of prostratin and bortezomib as therapeutic agents for KSHV-associated malignancies.
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PMID:Prostratin and bortezomib are novel inducers of latent Kaposi's sarcoma-associated herpesvirus. 1621 74

The cell cycle of eukaryotic cells is regulated by a series of protein complexes composed of cyclins and cyclin-dependent kinases (CDKs), the activity of which is suppressed by a group of CDK inhibitors (CKIs). Among the CKIs, p27 plays a pivotal role in the control of cell proliferation. Degradation of p27 is a critical event for reentry of cells into the cell cycle from G0 phase and occurs through ubiquitination by two ubiquitin ligase complexes (KPC and SCFSkP2) and subsequent degradation by the 26S-proteasome. A tumor suppressing function of p27 has been demonstrated in mouse models and studies of human tumors. This review will focus on the regulation of p27 proteolysis and its consequences for tumorigenesis.
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PMID:[The degradation of p27 and cancer]. 1627 71

Targeted therapy of proteasome regulated gene expression has potential utility in cancer treatment since components of ubiquitin-mediated proteolysis are altered in human malignancy. Specific regulators of proteasome degradation such as F-box proteins of the SCF E3 ligase complex are ideal biomarkers for assessing therapeutic efficacy since these components determine substrate specificity. An F-box protein that appears to be important in this process is human Cdc4 (Fbw7) since expression is detected in a variety of human cancers including breast, colon, pancreas and uterus. The role of Cdc4 in tumorigenesis appears to be related at least in part to regulation of cyclin E since inactivating mutations of CDC4 in cancer cells leads to cyclin E overexpression and genomic instability. In order to investigate the potential biological and clinical consequences of proteasome inhibition with respect to Cdc4 mediated targeted proteolysis, we investigated CDC4 expression and genetic alterations in 53 primary human prostate cancers in addition to correlation with relevant histopathological and clinical parameters. We identified genetic alterations in 6% of our prostate cancers while differential expression of Cdc4 isoforms correlated with advanced pathological stage and clinical recurrence. Our data suggest that CDC4 expression in prostate cancer has important biological and clinical implications since genetic alterations, differential Cdc4 isoform expression, histopathological and clinical correlation were demonstrated in our analysis. Therefore molecular genetic analysis of CDC4 expression may be an important biomarker for concurrent or subsequent clinical investigation of proteasome targeted therapy in men with prostate cancer.
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PMID:CDC4 gene expression as potential biomarker for targeted therapy in prostate cancer. 1635 15

The promising effects of the proteasome inhibitor bortezomib (Velcade, PS-341) in the treatment of certain types of cancer have fired up the interest on this multicatalytic proteolytic machinery. A number of recent reviews thoroughly describe various aspects of the ubiquitin-proteasome system and its importance in the control of cell growth and tumorigenesis. Here, we will focus on recent data unveiling a link between the proteasome and some elements of the apoptotic machinery including Bcl-2 members, caspases, IAPs and IAP antagonists. Perturbing their turnover significantly contributes to the apoptotic response and the anti-neoplastic activity of proteasome inhibitors.
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PMID:Altering protein turnover in tumor cells: new opportunities for anti-cancer therapies. 1640 69


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