Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.25.1 (proteasome)
 28,817 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Avicins are plant-derived triterpenoid stress metabolites that have both proapoptotic and cytoprotective properties. Avicins induce apoptosis in Jurkat T leukemia cells by targeting mitochondria and release of cytochrome c that occurs in a p53-independent manner. However, postmitochondrial antiapoptotic barriers, such as increased expression of heat shock proteins (Hsp) and X-linked inhibitor of apoptosis proteins (XIAP), frequently exist in cancer cells and often account for resistance to chemotherapy and a poor prognosis. In this article, we show the role of avicins in the activation of stress-regulated ubiquitination and degradation of Hsp70 and XIAP. This is the first report showing the regulation of Hsp70 via the ubiquitin/proteasome pathway. We also show the induction of E3alpha ubiquitin ligase in avicin-treated Jurkat T leukemia cells, and its involvement in the degradation of XIAP. Avicin-mediated suppression of Hsp70 and XIAP was further confirmed in other leukemic/lymphoma cell lines and freshly isolated peripheral blood lymphocytes from Sezary syndrome patients. No change in the Hsp70 and XIAP proteins was observed in peripheral blood lymphocytes from normal donors. We propose that the ability of avicins to induce ubiquitination and regulate the degradation of Hsp70 and XIAP in leukemia cells could have important implications in the treatment of drug-resistant neoplasia and inflammatory disorders.
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PMID:Triterpenoid electrophiles (avicins) suppress heat shock protein-70 and x-linked inhibitor of apoptosis proteins in malignant cells by activation of ubiquitin machinery: implications for proapoptotic activity. 1575 21

The most common indolent lymphoma, follicular lymphoma comprises 35% of adult non-Hodgkin's lymphoma (NHL) in the United States and 22% worldwide. Features associated with adverse outcome include age, male gender, disease stage, and performance status, with the International Prognostic Index being the most widely used risk classification system. Long-term disease-free survival is possible in select patient subgroups after treatment, but very late relapses suggest that quiescent lymphoma cells might be harbored for long periods of time. Radiation therapy is the mainstay of treatment for limited-stage follicular lymphoma, but there is some experience with chemotherapy and combined chemoradiation. When to initiate treatment in patients with advanced disease is controversial, but options include various combined chemotherapy regimens, monoclonal antibodies, radiolabeled antibodies, and bone marrow or stem cell transplantation. Future directions in the treatment of follicular lymphoma include vaccines, antisense therapy, and proteasome inhibitors.
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PMID:Follicular lymphoma: expanding therapeutic options. 1577 Aug 90

The proteasome is a ubiquitous enzyme complex that plays a critical role in the degradation of many proteins involved in cell cycle regulation, apoptosis and angiogenesis. Since these pathways are fundamental for cell survival and proliferation, particularly in cancer cells, the inhibition of proteasome is an attractive potential anticancer therapy. The present review will focus on the proteasome inhibitor bortezomib (Velcade, formerly PS-341; Millennium Pharmaceuticals, Inc., Cambridge, MA, USA). Bortezomib is an extremely potent and selective proteasome inhibitor that shows strong activity in in vitro and in vivo laboratory studies against many solid and hematologic tumor types. Moreover, bortezomib, mainly by inhibition of the NF-kappaB pathway, has a chemosensitizing effect when administered together with other antitumoral drugs. Based on these results, bortezomib entered clinical phase I trials, alone or in combination with chemotherapy, that showed good tolerance at doses that achieved a desired degree of proteasome inhibition. Phase II studies showed high response rates in refractory multiple myeloma patients, which led to the accelerated approval of bortezomib by the U.S. Food and Drug Administration (FDA) and the European Medicines Agency (EMEA) for this indication. A phase III trial comparing bortezomib with dexamethasone in refractory/ relapsed multiple myeloma patients had to be halted due to a survival advantage in the bortezomib arm. Additional studies are focusing on the potential benefit of bortezomib in newly diagnosed multiple myeloma patients. In other solid and hematological malignancies, phase II studies with bortezomib alone or in combination with other agents are ongoing. Encouraging results, particularly in lung cancer and lymphoma, have been observed. The critical molecules or genes responsible for tumor sensitivity to bortezomib continue to be evaluated using novel technologies.
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PMID:Preclinical and clinical development of the proteasome inhibitor bortezomib in cancer treatment. 1608 28

Our ever-increasing understanding of cancer cell biology has begun to provide a variety of new, and potentially drugable targets for the treatment of many forms of cancer. Nowhere else is this more apparent than in the treatment of the lymphomas. A rapidly emerging experience in gene expression profiling has begun to suggest that we can define different subtypes of lymphoma on the basis of unique molecular signatures. These signatures can define important signaling pathways that may help account for the biology of different subsets of lymphoma, and are teaching us that the lymphomas are truly a heterogeneous set of diseases. What remains equally as interesting is the idea that empiric observations of novel targeted drugs in select subtypes of lymphoma can teach us much about the biology of different lymphomas. A priori assumptions about the anticipated activity of novel targeted agents in select subtypes of lymphoma have been turned upside down. Two pathways that have emerged recently as potentially important targets for new agents in lymphoma include the ubiquitin proteasome pathway and the biochemical reactions that control histone acetylation. New classes of drugs that affect these targets, such as bortezomib, depsipeptide, suberoylanilide hydroxamic acid, and a host of other compounds, though affecting a unique target in the cell, are associated with a remarkable panoply of different downstream biologic effects. In this article, we will review some of the prevailing theories about how these novel targeted drugs affect lymphoma biology, and how these compounds are changing the face of lymphoma therapy.
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PMID:Targeting histones and proteasomes: new strategies for the treatment of lymphoma. 1615 30

Dendritic cells are professional antigen-presenting cells associated with efficient antigen processing and presentation to T cells. However, recent evidence also suggests that dendritic cells may mediate direct tumoricidal functions. In this study, we investigated the mechanism by which murine dendritic cells mediate the apoptotic death of murine lymphoma cell lines, and whether dendritic cell effector function could be enhanced by preconditioning tumor cells with the protein phosphatase inhibitor nitric oxide (NO) by altering the balance of proapoptotic/antiapoptotic proteins in the treated cells. We observed that NO donor compound sensitized lymphomas to dendritic cell-mediated cytotoxicity in vitro. Both immature and spontaneously matured bone marrow-derived dendritic cells (SM-DC) were capable of inducing tumor cell apoptosis, with SM-DCs serving as comparatively better killers. Fas ligand (FasL)-Fas engagement proved important in this activity because elevated expression of membrane-bound FasL was detected on SM-DCs, and dendritic cells derived from FasL-deficient mice were less capable of killing NO-sensitized tumor cells than wild-type dendritic cells. As FasL-deficient dendritic cells were still capable of mediating a residual degree of tumor killing, this suggests that FasL-independent mechanisms of apoptosis are also involved in dendritic cell-mediated tumor killing. Because NO-treated tumor cells displayed a preferential loss of survivin protein expression via a proteasome-dependent pathway, enhanced tumor sensitivity to dendritic cell-mediated killing may be associated with the accelerated turnover of this critical antiapoptotic gene product. Importantly, NO-treated tumor cells were also engulfed more readily than control tumor cells and this resulted in enhanced cross-presentation of tumor-associated antigens to specific T cells in vitro.
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PMID:Nitric oxide sensitizes tumor cells to dendritic cell-mediated apoptosis, uptake, and cross-presentation. 1616 26

Mantle-cell lymphoma (MCL) is a mature B-cell lymphoma with an aggressive course and generally poor prognosis. Conventional chemotherapy has little efficacy. Bortezomib is a novel, reversible, and highly specific proteasome inhibitor that appears as a new hope for MCL treatment. We have analyzed the in vitro sensitivity to bortezomib in 4 MCL cell lines and in primary tumor cells from 10 MCL patients. Bortezomib induced phosphatidylserine exposure, mitochondrial depolarization, ROS generation, Bax and Bak conformational changes, and caspase activation. In addition, ROS scavengers, but not pancaspase inhibitors, blocked all apoptosis hallmarks. Protein and mRNA-expression analysis, revealed marked up-regulation of the BH3-only protein Noxa, between 4 to 6 hours after bortezomib addition, independent of p53 status. However, this up-regulation was faster and higher in cells with functional p53. Noxa RNA interference markedly decreased sensitivity to bortezomib, pointing to this protein as a key mediator between proteasome inhibition and mitochondrial depolarization in MCL cells. Noxa interacts with the antiapoptotic protein Mcl-1 and promotes Bak release from Mcl-1, suggesting that up-regulation of Noxa might counteract Mcl-1 accumulation after bortezomib treatment. These findings should be useful to extend the therapeutic strategies in MCL patients and to improve their prognosis.
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PMID:The proteasome inhibitor bortezomib induces apoptosis in mantle-cell lymphoma through generation of ROS and Noxa activation independent of p53 status. 1616 92

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

Consolidation with high-dose therapy followed by single or double autologous stem cell transplantation has improved response and survival of patients with multiple myeloma (MM), but the disease remains incurable. The emergence of novel agents offer potentially significant advances in the treatment of MM. Bortezomib, a selective inhibitor of the proteasome, has proven to be safe and effective in patients with relapsed and/or refractory MM as monotherapy in phase II/III clinical trials and has produced promising activity in combination regimens with cytotoxic agents. Bortezomib-based combination regimens have also exhibited clinical benefits with manageable toxicities and may ultimately lead to improvement in the duration of response and survival of patients in the first-line setting. High complete and near-complete response rates after 2-4 cycles of bortezomib-based induction therapy may improve outcome in autologous stem cell transplantation recipients. Bortezomib also appears to overcome the adverse prognostic impact of high b2-microglobulin levels and chromosome 13 deletion, as these patients at high risk have shown responses and improved survival with bortezomib therapy. Of interest, patients whose disease previously responded to bortezomib appear to retain sensitivity to the drug, and bortezomib is being explored in maintenance regimens. The use of bortezomib in MM therapy, including ongoing randomized phase III trials, is reviewed herein.
Clin Lymphoma Myeloma 2005 Sep
PMID:Emerging trends in the clinical use of bortezomib in multiple myeloma. 1623 45

Mantle cell lymphoma (MCL) is a distinctive non-Hodgkin's lymphoma sub-type, characterized by over-expression of cyclin D1 as a consequence of chromosomal translocation t(11;14)(q13;q32). MCL remains an incurable disease, combining the unfavorable clinical features of aggressive and indolent lymphomas. The blastic variant of MCL, which is often associated with additional cytogenetic alterations, has an even worse prognosis and new treatment options are clearly needed. The 26S proteasome is a large multi-catalytic multi-protein complex, present in all eukaryotic cells. It is responsible for the degradation of a variety of short-lived proteins and exhibits a key position in cellular processes including apoptosis and cell cycle progression. Targeting the ubiquitin - proteasome pathway has only recently been identified as a promising new therapeutic option for cancer patients. Interestingly, an increased activity of the proteasome pathway has been described in MCL cells and the inhibition of the proteasome seems to be a promising therapeutic approach for this incurable disease.
Leuk Lymphoma 2006 Feb
PMID:Targeting the proteasome in mantle cell lymphoma: a promising therapeutic approach. 1710 19

The protein levels of beta-catenin are tightly regulated by the ubiquitin/proteasome system. We provide evidence that two distinct ubiquitin-dependent degradation pathways for beta-catenin are active in the same Burkitt's lymphoma cells: Along with the classical glycogen-synthase kinase 3beta-dependent destruction machinery, degradation of beta-catenin through seven in absentia homolog 1 (Siah-1) ubiquitin ligase is functional in these cells. We show that inhibition of endogenous Siah-1 stabilizes and activates beta-catenin in B cells. The principal Epstein-Barr virus oncoprotein, latent membrane protein 1, is involved in beta-catenin up-regulation, and expression of latent membrane protein 1 in B lymphoma cells is associated with decreased Siah-1 RNA and protein levels. Thus, we demonstrate the significance of the endogenous Siah-1-dependent ubiquitin/proteasome pathway for beta-catenin degradation in malignant human cells and its regulation by a viral oncogene.
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PMID:Up-regulation of beta-catenin by a viral oncogene correlates with inhibition of the seven in absentia homolog 1 in B lymphoma cells. 1634 72


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