Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0026764 (multiple myeloma)
36,148 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The ubiquitin-proteasome pathway is a principal intracellular mechanism for controlled protein degradation and has recently emerged as an attractive target for anticancer therapies since several cell cycle regulators and modulators of apoptosis are degraded through this pathway. The current state of the field of proteasome inhibitors and their prototypic member, bortezomib, which was recently approved by the US Food and Drug Administration for the treatment of advanced multiple myeloma, is reviewed. Particular emphasis is placed on the preclinical research data that became the basis for eventual clinical applications of proteasome inhibitors, an overview of the clinical development of this exciting drug class in multiple myeloma, and an appraisal of possible uses in other hematologic malignancies, such as non-Hodgkin's lymphomas.
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PMID:Proteasome inhibition as a therapeutic strategy for hematologic malignancies. 1600 54

Multiple myeloma is a B-cell malignancy for which no curative therapies exist to date, despite enormous research efforts. The remarkable activity of the proteasome inhibitor bortezomib (PS-341, Velcade) observed in clinical trials of patients with relapsed refractory myeloma has led to investigations of the role of the ubiquitin-proteasome pathway in the pathogenesis of myeloma. Here we report a biochemical analysis of proteasome activity and composition in myeloma cells exposed to PS-341 in the presence or absence of cytokines present in the bone marrow milieu. We observed that the myeloma cell lines MM1.S, RPMI8226, and U266 contain active immunoproteasomes, the amount of which is enhanced by IFN-gamma and tumor necrosis factor-alpha. Using a radiolabeled active site-directed probe specific for proteasome catalytic subunits, we show that PS-341 targets the beta5 and beta1 subunits in a concentration-dependent manner. Furthermore, PS-341 also targeted the corresponding catalytic subunits of the immunoproteasome, beta5i and beta1i, respectively. These data suggest that PS-341 targets both normal and immunoproteasome species to a similar extent in myeloma cells.
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PMID:Effects of PS-341 on the activity and composition of proteasomes in multiple myeloma cells. 1614 Sep 60

The ubiquitin-proteasome pathway is a principle intracellular mechanism for controlled protein degradation and has recently emerged as an attractive target for anticancer therapies, because of the pleiotropic cell-cycle regulators and modulators of apoptosis that are controlled by proteasome function. In this chapter, we review the current state of the field of proteasome inhibitors and their prototypic member, bortezomib, which was recently approved by the U.S. Food and Drug Administration for the treatment of advanced multiple myeloma. Particular emphasis is placed on the pre-clinical research data that became the basis for eventual clinical applications of proteasome inhibitors, an overview of the clinical development of this exciting drug class in multiple myeloma, and a appraisal of possible uses in other haematological malignancies, such non-Hodgkin's lymphomas.
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PMID:Proteasome inhibitors as therapeutics. 1625 Sep 7

The 26S proteasome is a multicatalytic threonine protease complex that is responsible for intracellular protein turnover in eukaryotic cells. This complex degrades and processes proteins required for regulation of various cellular functions. Bortezomib is a novel proteasome inhibitor approved for therapy of multiple myeloma. Inhibition of ubiquitin-proteasome-mediated protein degradation by bortezomib leads to accumulation of its diverse substrates, including cyclins, transcriptional factors, tumor suppressor proteins, and protooncogenes. The sequelae of such profound perturbation of cellular function include cell cycle arrest and activation of apoptotic programs. As the development of this agent continues, there is interest in evaluating its interaction with other anticancer agents. This review provides an overview of selected interactions between bortezomib and other anticancer agents preclinically and in early clinical trials.
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PMID:Sequencing bortezomib with chemotherapy and targeted agents. 1625 Sep 28

The combination of chemotherapy and radiation has been validated for the treatment of locally advanced non-small-cell lung cancer (NSCLC). However, the results are still unsatisfactory, and there is a need to improve current treatment. One approach is to use new agents that have the potential to enhance the efficacy of chemotherapy, radiation therapy (RT), or both. One potential target is the ubiquitin-proteasome pathway. This pathway plays an essential role in the degradation of most short- and long-lived intracellular proteins in eukaryotic cells and therefore regulating the cell cycle, neoplastic growth, and metastasis. Bortezomib is a selective 26S proteasome inhibitor that has been approved for the treatment of multiple myeloma. Bortezomib has demonstrated in vitro chemotherapy- and RT-sensitizing properties as well as single-agent activity in lung cancer. This article will review the rationale for the use of bortezomib as part of the chemotherapy/RT strategy for the treatment of NSCLC.
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PMID:The potential role of bortezomib in combination with chemotherapy and radiation in non-small-cell lung cancer. 1625 Sep 30

The validation of the ubiquitin-proteasome pathway as a target for therapy of hematological malignancies stands out as one salient example of the ability to translate laboratory-based findings from the bench to the bedside. Preclinical studies showed that proteasome inhibitors had significant activity against models of non-Hodgkin lymphoma and multiple myeloma, and identified some of the relevant mechanisms of action. These led to phase I through III trials of the first clinically available proteasome inhibitor, bortezomib, which confirmed its activity as a single agent in these diseases. Modulation of proteasome function was then found to be a rational approach to achieve both chemosensitization in vitro and in vivo, as well as to overcome chemotherapy resistance. Based on these findings, first-generation bortezomib-based regimens incorporating traditional chemotherapeutics such as alkylating agents, anthracyclines, immunomodulatory agents, or steroids have been evaluated, and many show promise of enhanced clinical anti-tumor efficacy. Further studies of the pro-and anti-apoptotic actions of proteasome inhibitors, and of their effects on gene and protein expression profiles, suggest that novel agents, such as those targeting the heat shock protein pathways, are exciting candidates for incorporation into these combinations. Phase I trials to test these concepts are just beginning, but have already shown some encouraging results. Finally, novel proteasome inhibitors are being developed with unique properties that may also have therapeutic applications. Taken together, these studies demonstrate the power of rational drug design and development to provide novel, effective therapies for patients with hematological malignancies.
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PMID:The ubiquitin proteasome pathway from bench to bedside. 1630 84

Recent advanced developments in our understanding of cancer cell biology have begun to generate a host of new targets that are proving to be valuable substrates for new drug development. One example includes our ever-increasing understanding of the complex biology surrounding the ubiquitin-proteasome pathway. For years there have been a variety of compounds used in the laboratory that have been shown to inhibit the proteasome, though many of these compounds have proven to be relative non-specific inhibitors of intracellular and proteasome proteases. The recent synthesis of 1 novel inhibitor, bortezomib (formerly known as PS341), has proven to be an effective reversible inhibitor of the chymotryptic protease in the 26S proteasome. Proteasome inhibition represents a new approach for the treatment of many forms of cancer, especially select hematologic malignancies. Bortezomib has been approved by the United States Food and Drug Administration for the treatment of relapsed or refractory multiple myeloma. In addition to myeloma, bortezomib has also shown promising activity in the treatment of select types of non-Hodgkin's lymphomas (NHLs). Several single-agent phase II clinical trials in patients with a host of different NHL histologies have demonstrated that bortezomib has reproducible activity in mantle-cell lymphoma (MCL) and follicular lymphoma (FL), with some suggestion of activity in marginal zone lymphoma. The promising activity in these smaller studies has led to a number of larger multicenter studies with bortezomib in combination with rituximab in MCL, FL, and marginal zone lymphoma. The collective early experience from these studies continues to support the activity of bortezomib in these histologies of NHL. Herein, some of the biologic rationale for using proteasome inhibitors in lymphoma as well as some of the clinical data from these promising studies are discussed.
Clin Lymphoma Myeloma 2005 Nov
PMID:Marked clinical activity of the proteasome inhibitor bortezomib in patients with follicular and mantle-cell lymphoma. 1635 24

Proteasome-mediated proteolysis is a mechanism for mediating important regulatory proteins within the cell. Proteins that have been targeted for degradation by the proteasome are convalently tagged with a poly-ubiquitin protein chain prior to be recognized by the 19S subunit of proteasome. This degradation system controls the expression of a wide variety of cellular targets including tumor suppressors such as p53, inhibitor of nuclear factor NFkappaB, cyclin-dependent kinase inhibitors such as p21 and p27. Because of these functions, the proteasome has become a new target for cancer treatment. The potent and selective proteasome inhibitor, PS-341 or Velcade was approved in the United States and launched in may 2003 for the treatment of multiple myeloma patients who have received at least two prior therapies. On April 2004, the European commission granted marketing authorization for Velcade with the same indication. The same year 2004, the Nobel Prize in chemistry was awarded to three researchers "for the discovery of ubitiquin-mediated protein degradation", a regulated process by which proteins are cleaved into peptides inside cells.
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PMID:[A new therapy with bortezomib, an oncologic medicinal product of the year 2004]. 1638 84

The proteasome, a multicatalytic proteinase complex, is responsible for the majority of intracellular protein degradation. Pharmacologic inhibitors of the proteasome possess in vitro and in vivo antitumor activity, and bortezomib, the first such agent to undergo clinical testing, has significant efficacy against multiple myeloma and non-Hodgkin lymphoma (NHL). Preclinical studies demonstrate that proteasome inhibition potentiates the activity of other cancer therapeutics, in part by downregulating chemoresistance pathways. Early clinical studies of bortezomib-based combinations, showing encouraging activity, support this observation. Molecular characterization of resistance to proteasome inhibitors has revealed novel therapeutic targets for sensitizing malignancies to these agents, such as the heat shock pathway. Below, we review the pharmacologic, preclinical, and clinical data that have paved the way for the use of proteasome inhibitors for cancer therapy; outline strategies aimed at enhancing the efficacy of proteasome inhibitors; and review other potential targets in the ubiquitin proteasome pathway for the treatment of cancer.
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PMID:The proteasome and proteasome inhibitors in cancer therapy. 1640 3

The ubiquitin-proteasome pathway is responsible for the vast majority of regulated eukaryotic intracellular proteolysis. Inhibition of the proteasome induces beneficial antitumour effects by blocking cell-cycle progression, inducing apoptosis and suppressing angiogenesis. Bortezomib is the first proteasome inhibitor to reach the clinical arena, where Phase I - III trials verified its activity against relapsed/refractory multiple myeloma. Testing is ongoing to determine bortezomib's role in front-line therapy of this plasma cell dyscrasia, as well as in non-Hodgkin's lymphoma, in which encouraging single-agent activity has been seen. Proteasome inhibition is also a rational strategy to overcome chemoresistance and induce chemosensitisation. Combinations of bortezomib and other agents have enhanced efficacy, and additional studies are probing the activity of several regimens in lymphoid and myeloid malignancies. The current state of knowledge about the activity of bortezomib, both alone and in combination with standard chemotherapeutics, as part of the emerging armamentarium against haematological malignancies is reviewed.
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PMID:Targeting the proteasome as a therapeutic strategy against haematological malignancies. 1643 92


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