UMLS:C0027651 - FACTA Search

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Query: UMLS:C0027651 (tumor)
685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The cells of the malignant clone of plasmacell myeloma have cytogenetic aberrations in a substantial number of cases. Many of these abnormal karyotypes are predictive for an unfavorable outcome. Gene mutations and abnormal gene expression, particularly of oncogenes and tumor suppressor genes, are often observed in myeloma cells. The cross talk between the myeloma cells and the bone marrow microenvironment plays an important role for growth and survival of the tumor cells. As a consequence of this cell-to-cell-interaction, several cytokines are secreted. The intracellular signaling, evoked by these cytokines, leads to continuous growth and proliferation and inhibition of apoptosis. Since these molecular pathways have been defined, many new targets for therapeutical interventions become obvious. Some molecules, directed against cytokines, are under early clinical investigation. Medicaments intervening in the cross talk between the myeloma cell and the bone marrow stroma as Thalidomide, Lenalidomide or Bortezomib are already available. Many of the myeloma patients suffer from bone disease. Some new drugs inhibiting the differentiation and activation of osteoclasts are evaluated in clinical trials. These molecules will be an important contribution against the painful bone disease of plasmacell myeloma.
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PMID:[The plasma cell myeloma--molecular pathogenesis and target therapies]. 1668 52

The present paper demonstrates that the proteasome inhibitor bortezomib, which behaves as an apoptotic agent in hepatoma HepG2 cells, caused in these cells a decrease in IkappaBalpha level and a consequent increase in NF-kappaB activity. The effect already appeared at 4 h of treatment and preceded the onset of apoptosis which was observed at 24 h. Our results demonstrate that bortezomib-induced IkappaBalpha degradation occurred in conjunction with the activation of caspase-8; moreover, the decrease in IkappaBalpha level was prevented in a dose-dependent manner by the addition of z-IETD, a specific inhibitor of caspase-8. Bortezomib caused the same effects in non-tumor Chang liver cells, which were not susceptible to the apoptotic effect of the drug. Our results also show that other proteases, such as caspase-3 and calpains, exerted only a limited effect on IkappaBalpha degradation. These findings suggest that caspase-8 can be involved in the control of IkappaBalpha level. In addition, the activation of caspase-8 can exert, at least in the first phase of treatment with bortezomib, a protective effect in both HepG2 and Chang liver cells, favouring the activation of the survival factor NF-kappaB.
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PMID:Bortezomib induces in HepG2 cells IkappaBalpha degradation mediated by caspase-8. 1673 6

The proteasome is an ubiquituous 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. Bortezomib (Velcade, formerly PS-341) 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. Clinical phase I trials, showed good tolerance of bortezomib 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 Food and Drug Administration (FDA) and the European Medicines Agency (EMEA) for this indication. A phase III trial comparing bortezomib to dexamethasone in refractory/relapsed multiple myeloma patients had to be halted due to a survival advantage in the bortezomib arm. Additional studies are focusing in 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 are ongoing with encouraging results, particularly in lung cancer and lymphoma.
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PMID:The proteasome: a novel target for anticancer therapy. 1676 5

The ubiquitin-proteasome pathway plays a critical role in the regulated degradation of proteins involved in cell cycle control and tumor growth. Bortezomib (Velcade, formerly known as PS-341) is a potent proteasome inhibitor. In preclinical studies, bortezomib has demonstrated activity against a variety of B-cell malignancies by inducing apoptosis and sensitizing tumor cells to radiation or chemotherapy. Based on these findings, clinical trials have been conducted with bortezomib in B-cell non-Hodgkin's lymphoma. In these studies, bortezomib was generally well tolerated with manageable toxicities and showed promising clinical activity. Mantle cell lymphoma was significantly more sensitive to bortezomib than other non-Hodgkin's lymphomas. Bortezomib may have far-reaching potential in the treatment of B-cell non-Hodgkin's lymphoma.
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PMID:Use of bortezomib in B-cell non-Hodgkin's lymphoma. 1683 Oct 71

The 26S proteasome is a large multi-subunit protein complex found in the cytoplasm and nucleus of mammalian cells which plays a critical role in intracellular proteolysis. It has been found that the 26S proteasome degrades multiple important substrates which are associated with tumor growth and development. Emerging evidence demonstrates that proteasome inhibition is an innovative and effective approach for treating some human cancers. PS-341 (also known as Velcade or Bortezomib), a specific inhibitor of the 26S proteasome, has been approved for treating multiple myeloma by the FDA. PS-341 mainly exhibits its anti-cancer effect by inducing apoptosis, and has been found to affect several pro- and anti-apoptotic pathways. Activation of the transcription factor nuclear factor kappa B (NF-kappaB), a key survival factor, is dependent on the 26S proteasome. The inhibition of NF-kappaB by PS-341 has been found to induce apoptosis in several human cancer cells and is considered to be one of the primary targets of the PS-341 anti-tumor effect. More recently, studies have suggested that, in addition to the inhibition of pro-survivial NF-kappaB, PS-341 may induce apoptosis by stimulating pro-apoptotic endoplasmic reticulum stress through proteasome inhibition. In this review, we will mainly discuss recent progress on the elucidation of the molecular mechanism of PS-341-mediated apoptosis.
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PMID:Proteasome inhibitor induces apoptosis through induction of endoplasmic reticulum stress. 1686

Although it displays promising activity in other tumor models, the effects of tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) on human pancreatic cancer cells have not been comprehensively explored. We report that a majority of human pancreatic cancer cell lines (seven of nine) underwent apoptosis when they were exposed to recombinant human TRAIL in vitro. Characterization of surface TRAIL receptors by fluorescence-activated cell sorting showed that TRAIL-resistant cells (Panc-1 and HS766T) expressed lower levels of DR4 and DR5 than did TRAIL-sensitive cells. The proteasome inhibitor bortezomib (PS-341, Velcade) further increased TRAIL responsiveness in the TRAIL-sensitive cells and synergized with TRAIL to reverse resistance in Panc-1 and HS776T cells. The effects of bortezomib were mimicked by transfection with a small interfering RNA construct specific for the p65 subunit of nuclear factor-kappaB (NF-kappaB) or exposure to a selective chemical inhibitor of IKK (PS-1145). Silencing IkappaBalpha prevented TRAIL sensitization by PS-1145, confirming that IkappaBalpha mediated the effects of PS-1145. NF-kappaB inhibition resulted in down-regulation of BCL-XL and XIAP, and silencing either restored TRAIL sensitivity in TRAIL-resistant cells. Finally, therapy with TRAIL plus PS-1145 reversed TRAIL resistance in vivo to produce synergistic growth inhibition in orthotopic Panc-1 tumors. Together, our results show that NF-kappaB inhibits TRAIL-induced apoptosis in human pancreatic cancer cells and suggest that combination therapy with TRAIL and NF-kappaB inhibitors, such as bortezomib, PS-1145, or curcumin, should be considered as a possible treatment strategy in patients with pancreatic cancer.
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PMID:Nuclear factor-kappaB maintains TRAIL resistance in human pancreatic cancer cells. 1698 59

A 60-year-old female patient with a therapy-resistant Bence-Jones (BJ) lambda-type multiple myeloma was treated with bortezomib. She had been treated with tandem autologous stem cell transplantations and achieved complete remission before her disease relapsed. Sixteen hours after the first administration of bortezomib, an episode of fever, slight consciousness disturbance and vomiting occurred, which was accompanied by a remarkable elevation of LDH (3608 IU/l). Serum levels of creatinine, uric acid, and AST were also transiently elevated. Serum interleukin-6 level was also increased after the administration of bortezomib. The symptoms disappeared rapidly within 48 hours. Bortezomib at a 25%-reduced dose was administered again along with dexamethasone 26 days later, which caused a moderate increase in LDH levels, but no other symptoms. Further treatment caused no increase in LDH. The treatment was very effective and eradicated both urinary BJ protein and bone marrow myeloma cells after 8 sessions of bortezomib administration. These findings suggest that a bortezomib-induced rapid reduction in tumor burden led to tumor lysis syndrome, for which caution is needed when treating myeloma patients with this very effective agent.
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PMID:[Bortezomib-induced tumor lysis syndrome with a remarkable elevation of LDH in a case of relapsed and therapy-resistant multiple myeloma]. 1698 18

Although multiple myeloma (MM) remains an incurable disease, its treatment has improved over the past decade. This improvement has been at least in part due to the introduction of novel antimyeloma agents with new mechanisms of action, including those that target both myeloma cells and the tumor microenvironment, with antiangiogenic and immunomodulatory properties. Among these drugs, bortezomib (Velcade), a selective proteasome inhibitor, has been approved for the treatment of relapsed and refractory MM patients after one line of therapy. The toxicity profile of bortezomib includes gastrointestinal symptoms, fatigue, thrombocytopenia, peripheral neuropathy, postural hypotension, as well as some uncommon events. A patient with relapsed MM who developed recurrent bortezomib-induced rhabdomyolysis is reported. To our knowledge, this adverse event has not been previously described is this context.
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PMID:Bortezomib-induced rhabdomyolysis in multiple myeloma. 1701 40

A better understanding of the biology and pathogenesis of hematological malignancies has led to the development of immunotherapeutic and immunoregulatory drugs. Many of these agents have revolutionized the current treatment modalities, while others are under investigation. Rituximab (anti-CD20 antibody) has been established as the gold standard of treatment for aggressive B-cell lymphomas in combination with CHOP and has shown significant activity as monotherapy in the treatment of indolent B-cell lymphomas. In follicular lymphomas the combination of Rituximab with chemotherapy improves the outcome compared to chemotherapy alone. CD 20-based radioimmunotherapy, with the advantage of the bystander effect, represents an additional therapeutic alternative in B-cell lymphomas and may produce tumor regression in Rituximab resistant patients. The anti-CD52 monoclonal antibody, alemtuzumab, further expands the armamentarium against lymphoid malignancies producing high response rates in these entities. Antibody-targeted chemotherapy such as gemtuzumab ozogamicin, consisting of an anti-CD33 antibody combined to calicheamicin, has shown efficacy in the treatment of refractory acute myeloid leukemia; exact indications, timing and dosing schedule for optimized efficacy remain to be determined. Interferons have proven significant activity in cutaneous lymphomas, hairy cell leukemia and chronic myelogenous leukemia by mechanisms that are not fully elucidated. Thalidomide, by acting as an immunomodulatory and antiangiogenic agent can modulate neoplastic cells microenvironment and lead to disease control in multiple myeloma as well as in numerous other hematological malignancies. Bortezomib, a proteasome inhibitor, displays significant anti-tumor activity, especially in multiple myeloma and lymphoproliferative disorders. The addition of these agents in therapeutic regimens has improved considerably the treatment of hematological malignancies.
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PMID:Immunotherapeutic and immunoregulatory drugs in haematologic malignancies. 1701 50

The ubiquitin-proteasome pathway (UPP) is the major non-lysosomal proteolytic system in the cytosol and nucleus of all eukaryotic cells. Bortezomib (also known as PS-341 and Velcade) is a proteasome inhibitor, a novel class of cancer therapies. Bortezomib blocks multi-ubiquitinated protein degradation by inhibiting 26S proteasome activity, including regulating cell cycle, anti-apoptosis, and inflammation, as well as immune surveillance. In multiple myeloma (MM) cells, bortezomib directly induces cell stress response followed by activation of c-Jun NH(2) terminal kinase (JNK)/stress-activated protein kinase (SAPK), and triggers caspase-dependent apoptosis of tumor cells. Recent clinical studies demonstrated that bortezomib had remarkable anti-tumor activity in refractory and relapsed MM, providing the basis to approval by FDA. Its anti-tumor activities earlier in the course, in combination therapies, and in other malignancies is ongoing.
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PMID:Bortezomib as an antitumor agent. 1716 60

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