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)

Risk-based treatment assignment requires the availability of prognostic factors that reliably predict clinical outcome. Junctional regions of T-cell receptor (TCR) genes provide the best tool to study clonality, lineage association and minimal residual disease (MRD) in T-ALL. In this study, we have analyzed the suitability of clonal TCR gamma and delta junctional gene rearrangement status of T-ALL patients at diagnosis as a prognostic marker for T-ALL. We studied peripheral blood samples of 50 newly diagnosed patients with T-ALL in India for incidence of clonal TCR gamma and delta junctional region gene rearrangements by PCR-coupled heteroduplex analysis. Of these, 17 T-ALL patients uniformly treated on MCP 841 protocol were followed for more than 40 months (range: 41.26-55.82 months; mean: 49.26) and their clonal TCRgammadelta genotype was correlated with clinical outcome with respect to duration of complete remission, disease-free survival (DFS) and event-free survival. We also compared the clinical and biological features of TCRgammadelta + T-ALL and TCRalphabeta + T-ALL for their relative order of significance. Thirty per cent (15 of 50) of Indian T-ALL patients exhibited clonal rearrangements of both TCR gamma and delta genes. A significant proportion of these patients (73.3%, 11 of 15 P < 0.005) showed predominant usage of VgammaI-Jgamma1.3/2.3 with Vdelta1-Jdelta1 genes. A statistically significant association of L2 and L1 FAB blast morphology with TCRgammadelta + T-ALL and TCRalphabeta + T-ALL, respectively was observed (P = 0.001 by Fisher's Exact Test). The survival rate in DFS group was higher for TCRgammadelta + T-ALL compared to TCRalphabeta + T-ALL (P = 0.1378 by Log rank test). Thus we have identified clonal TCR gamma and delta junctional gene rearrangement status of T-ALL patients at diagnosis as a prognostic marker and predictor of response to chemotherapy. In future, this may help in designing tailored and risk-adjusted (less aggressive and less toxic) therapies for subset of T-ALL patients.
Leuk Lymphoma 2004 Jan
PMID:Clonal T-cell receptor gamma and delta gene rearrangements in T-cell acute lymphoblastic leukemia at diagnosis: predictor of prognosis and response to chemotherapy. 1506 Dec 8

The ubiquitin-proteasome system plays a crucial role in eukaryotic cells in maintaining protein homeostasis. Through the disruption of a variety of pathways and cell cycle checkpoints, proteasome inhibition leads to apoptosis and in experimental models can overcome chemoresistance. Bortezomib is the first of its class of proteasome inhibitors tested in humans that showed promising activity in several tumor types, and especially in hematologic malignancies, in phase I studies. The remarkable results obtained in phase II studies in multiple myeloma (MM) led to its fast-track approval by the US Food and Drug Administration in May 2003 for relapsed MM. More recent observation also revealed promising activity in non-Hodgkin's lymphoma. This review will explore the rationale for the use of bortezomib in hematologic malignancies as well as provide an update on the results of ongoing studies and future directions for the use of this new agent in hematologic malignancies. The mechanism of action of bortezomib and its nonoverlapping toxicity profile make it a very appealing drug for combination with other chemotherapeutic or biologic agents. Bortezomib represents an excellent example of how progress in understanding the biology of cancer cells can impact clinical practice and lead toward a new era of rational therapeutics.
Clin Lymphoma 2004 Mar
PMID:Update on the proteasome inhibitor bortezomib in hematologic malignancies. 1507 15

E-type cyclins (cyclin E1 and cyclin E2) are expressed during the late G1 phase of the cell cycle until the end of the S-phase. The activity of cyclin E is limiting for the passage of cells through the restriction point "R" which marks a "point of no return" for cells entering the division cycle from a resting state or passing from G1 into S-phase. Expression of cyclin E is regulated on the level of gene transcription mainly by members of the E2F trrnscription factor family and by its degradation via the proteasome pathway. Cyclin E binds and activates the kinase Cdk2 and by phosphorylating its substrates, the so-called "pocket proteins", the cyclic/Cdk2 complexes initiate a cascade of events that leads to the expression of S-phase specific genes. Aside from this specific function as a regulator of S-phase-entry, cyclin E plays a direct role in the initiation of DNA replication, the control of genomic stability, and the centrosome cycle. Surprisingly, recent studies have shown that the once thought essential cyclin E is dispensable for the development of higher eukaryotes and for the mitotic division of eukaryotic cells. Nevertheless, high level cyclin E expression has been associated with the initiation or progression of different human cancers, in particular breast cancer but also leukemia, lymphoma and others. Transgenic mouse models in which cyclin E is constitutively expressed develop malignant diseases, supporting the notion of cyclin E as a dominant onco-protein.
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PMID:Cyclin E. 1514 22

Myc proteins regulate cell growth and division and are implicated in a wide range of human cancers. We show here that Fbw7, a component of the SCF(Fbw7) ubiquitin ligase and a tumor suppressor, promotes proteasome-dependent c-Myc turnover in vivo and c-Myc ubiquitination in vitro. Phosphorylation of c-Myc on threonine-58 (T58) by glycogen synthase kinase 3 regulates the binding of Fbw7 to c-Myc as well as Fbw7-mediated c-Myc degradation and ubiquitination. T58 is the most frequent site of c-myc mutations in lymphoma cells, and our findings suggest that c-Myc activation is one of the key oncogenic consequences of Fbw7 loss in cancer. Because Fbw7 mediates the degradation of cyclin E, Notch, and c-Jun, as well as c-Myc, the loss of Fbw7 is likely to elicit profound effects on cell proliferation during tumorigenesis.
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PMID:The Fbw7 tumor suppressor regulates glycogen synthase kinase 3 phosphorylation-dependent c-Myc protein degradation. 1518 32

The elucidation of detailed new signaling pathways in normal cells and how their perturbation contributes to the development of the malignant phenotype has created innumerable venues for the development of novel drugs that can affect these targets in therapeutically meaningful ways. For example, our understanding of the complex biology underlying the ubiquitin-proteasome pathway in normal cells has recently led to the identification of specific agents capable of affecting this biology. Intuitively, one would not presume that inhibiting such a ubiquitous and essential biologic process, such as the ubiquitin-proteasome pathway, would lead to a new therapeutic strategy in cancer patients, although empirical evidence has suggested otherwise. The proteasome is a complex structure of many proteins, some of which are specific proteases, that play a critical role in regulating the balance of intracellular protein. Bortezomib, formerly known as PS-341, is a very potent and selective inhibitor of the chymotryptic-like enzymatic function residing in the 26S proteasome. Inhibition of this particular enzymatic activity has now been associated with an enormous panoply of different biologic effects, including everything from the regulation of nuclear factor-kappaB to the stabilization of cell-cycle regulatory proteins and the induction of apoptosis through the upregulation of specific proapoptotic proteins. Inhibiting this particular enzymatic function has now been associated with sometimes dramatic clinical effects in a variety of hematologic malignancies, including multiple myeloma and non-Hodgkin's lymphoma. This activity has led to the recent US Food and Drug Administration approval of bortezomib for the treatment of relapsed or refractory multiple myeloma. This activity has also spawned several clinical studies that have now clearly established activity in a host of different lymphoma subtypes, including the challenging mantle cell lymphomas. These data are simply the tip of the iceberg and will no doubt continue to provide fodder for many years of innovative scientific and clinical development. This development will likely lead to the eventual integration of this promising new class of molecules into the mainstream treatment of many hematologic malignancies, including myeloma and hopefully several different non-Hodgkin's lymphomas. Understanding how precisely to integrate these novel compounds will require us to learn more regarding the array of different biologic effects proteasome inhibitors have on the cell and how these effects can be further augmented with conventional chemotherapy drugs. The story is testament to the value of recognizing the importance of empiric observations in clinical and preclinical investigations.
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PMID:The emerging role of bortezomib in the treatment of indolent non-Hodgkin's and mantle cell lymphomas. 1523 4

The highly controlled degradation of proteins via the ubiquitin-proteasome pathway represents a key mechanism for cell regulation and homeostasis. Ubiquitin-dependent proteolysis, carried out in large part by the E3 ubiquitin ligases, is a critical mode of post-translational modification that is important in regulation of cell cycle progression, signal transduction, gene transcription, antigen receptor signaling, immune response and cell differentiation. Recent studies demonstrate that increasing numbers of proteins with ubiquitin ligase activity are being characterized. Identification and characterization of their substrates indicate that they regulate the turnover of key cell cycle proteins (p27Kip1, p21Cip1, p57Kip2, cyclin E), tumor suppressor proteins (p53, RB), signaling kinases (Src, Zap70, PI-3 kinase), apoptosis regulators (Bcl-2, Bax, Bik) and transcription factors (Myc, NF-kappaB, E1F1), all of which have been implicated in the pathogenesis of malignant lymphoma. Studies to determine the functional role of ubiquitin ligases in the pathogenesis of malignant lymphoma represent potential areas of investigation.
Leuk Lymphoma 2004 Jul
PMID:Ubiquitin ligases in malignant lymphoma. 1535 30

Adult T-cell leukaemia or lymphoma is an aggressive malignant disease of mature activated T cells caused by human T-cell lymphotropic virus type I. Patients with this disease have a very poor outlook because of intrinsic chemoresistance and severe immunosuppression. In acute adult T-cell leukaemia, clinical trials in Japan show that although non-targeted combinations of chemotherapy improve response, they do not have a significant effect on complete remission and survival. Antiretroviral therapy with combination zidovudine and interferon alfa, which induces a high rate of complete remission and lengthens survival, should be the first treatment option in acute adult T-cell leukaemia. Patients with adult T-cell lymphoma might benefit from initial aggressive chemotherapy followed by antiretroviral therapy. To prevent relapse in all patients allogeneic bone-marrow transplantation when feasible, or additional targeted therapy, should be mandatory. Based on current pathophysiology, we discuss promising new drugs such as arsenic trioxide, proteasome inhibitors, retinoids, and angiogenesis inhibitors, as well as cellular immunotherapy.
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PMID:New therapeutic approaches for adult T-cell leukaemia. 1552 54

Advanced stage mantle cell lymphoma (MCL) with a median survival of only three years and virtually no long-term survivors represents the lymphoma subtype with the poorest prognosis and remains incurable with conventional chemotherapy. Recently two randomized trials of the German Low Grade Lymphoma Study Group (GLSG) demonstrated the superiority of a combined immunochemotherapy with the anti-CD20 antibody rituximab in first-line therapy (R-CHOP) as well as in relapsed disease (R-FCM). In addition, in a trial of the European MCL Network, intensified-consolidation with high-dose radiochemotherapy followed by autologous stem cell transplantation significantly improved the progression-free survival in patients up to 65 years of age. However, the vast majority of patients with MCL will eventually relapse. Thus, new strategies such as allogenic transplantation after dose-reduced conditioning or novel molecular targeting agents (e. g. proteasome inhibitors or radiolabeled antibodies) are urgently warranted to further improve the long-term outcome of MCL.
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PMID:[Current strategies in the treatment of advanced stage mantle cell lymphoma]. 1552 47

Proteasome inhibitors exhibit antitumor activity against malignancies of different histology. Yet, the mechanisms underlying this effect are poorly understood. Recent evidence indicates that antiapoptotic factors may also accumulate as a consequence of exposure to these drugs, possibly reducing their cytotoxicity. These include the Bcl-2 family member Mcl-1, whose down-regulation has been proposed to initiate apoptosis in response to genotoxic stimuli. In this study, we found that proteasome inhibitors release cyotochrome c and second mitochondria-derived activator of caspase (SMAC)/Diablo and trigger the subsequent apoptotic cascade in spite of concomitant Mcl-1 increase. However, our data indicate that subtraction of Mcl-1 during apoptosis, although not required for early release of proapoptotic factors, is probably relevant in speeding up cell demise, since RNA interference-mediated Mcl-1 silencing is lethal in lymphoma cells. Consistent with this, the cytotoxic effects of proteasome inhibitors are enhanced when Mcl-1 increase is impeded. Thus, this study identifies Mcl-1 accumulation as an unwanted molecular consequence of exposure to proteasome inhibitors, which slows down their proapoptotic effects. Pharmacologic or genetic approaches targeting Mcl-1, including therapeutic RNAi, may increase the effectiveness of these compounds.
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PMID:Evidence for a protective role of Mcl-1 in proteasome inhibitor-induced apoptosis. 1561 43

At least three distinct chromosomal translocations, t(11;18)(q21;q21), t(1;14)(p22;q32) and t(14;18)(q32;q21) involving the API2 (also known as c-IAP2)-MALT1 fusion protein, BCL10, and MALT1, respectively, have been implicated in the molecular pathogenesis of mucosa associated lymphoid tissue (MALT) lymphoma. Our findings showed that several variants of the API2-MALT1 fusion protein can occur in patients with t(11;18)(q21;q21), and that API2-MALT1 can potently enfance activation of nuclear factor (NF)-kappaB signaling, which may be relevant to the pathogenesis of MALT lymphomas. We also found that MALT1 is rapidly degraded via the ubiquitin-proteasome pathway, as is the case with API2, but upon the synthesis of fusion, API2-MALT1 becomes stable against this pathway. This stability of API2-MALT1 may thus result in inappropriate nuclear factor (NF)-kappaB activation, thereby contributing to the pathogenesis of MALT lymphoma. Recent biochemical and genetic studies have clearly shown that BCL10 and MALT1 form a physical and functional complex and are both required for NF-kappaB activation by antigen receptor stimulation in T and B lymphocytes. It has also been shown that CARMA1, a newly discovered member of the membrane-associated guanylate kinase (MAGUK) families, is critical for antigen receptor-stimulated NF-kappaB activation. It can be assumed that API2-MALT1 can bypass this normal BCL10/MALT1 cellular signaling pathway linked to NF-kappaB activation, thereby inducing antigen receptor-independent proliferation of lymphocytes. Furthermore, BCL10/MALT1- and API2-MALT1-induced NF-kappaB activation may contribute to anti-apoptotic action probably through NF-kappaB-mediated upregulation of apoptotic inhibitor genes. We recently provided direct evidence that API2-MALT1 indeed exerts anti-apoptotic action, in part, through its direct interaction with apoptotic regulators including Smac. Taken together, these findings prompt us to hypothesize that the anti-apoptotic action of API2-MALT1 may be mediated partly by the direct interaction with apoptotic regulators as well as partly by upregulation of apoptotic inhibitor genes. Further studies can be expected to stimulate research into the development of therapeutic drugs that specifically inhibit the antigen receptor signaling-stimulated NF-kappaB activation pathway: such molecule targeting drugs should be useful for interfering with inappropriate proliferation of lymphocytes associated with inflammatory and neoplastic disorders.
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PMID:Anti-apoptotic action of API2-MALT1 fusion protein involved in t(11;18)(q21;q21) MALT lymphoma. 1571 20


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